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Patent application title:

Novel Kinase Inhibition Models and Their Uses

Publication number:

US20120259606A1

Publication date:

2012-10-11

Application number:

13/096,580

Filed date:

2011-04-28

Abstract:

The present invention provides a c-Met inhibition model. The invention further provides a method to derive inhibition models for other kinases. The kinase inhibition models of the present invention can be used to design or screen for inhibitors for kinases.

Inventors:

Mark A. Ashwell 45 🇺🇸 Carlisle, MA, United States
Rocio Palma 18 🇺🇸 North Andover, MA, United States
Sudharshan Eathiraj 3 🇺🇸 North Andover, MA, United States

Assignee:

ArQule, Inc. 66 🇺🇸 Woburn, MA, United States

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Classification:

C12N9/12 » CPC main

Enzymes; Proenzymes; Compositions thereof ; Processes for preparing, activating, inhibiting, separating or purifying enzymes; Transferases (2.) transferring phosphorus containing groups, e.g. kinases (2.7)

C12Y207/10001 » CPC further

Transferases transferring phosphorus-containing groups (2.7); Protein-tyrosine kinases (2.7.10) Receptor protein-tyrosine kinase (2.7.10.1)

Description

RELATED APPLICATIONS

This application is a divisional application of U.S. Ser. No. 12/221,440, filed Jul. 31, 2008, which claims the benefit and priority to U.S. Ser. No. 60/962,881, filed Aug. 1, 2007. The contents of each of these applications are herein incorporated by reference in their entirety.

BACKGROUND OF THE INVENTION

Protein tyrosine kinases perform diverse functions ranging from stimulation of cell growth and differentiation to arrest of cell proliferation. They are either receptor tyrosine kinases (RTK) or intracellular tyrosine kinases. Inhibition of kinase activity is recognized as an effective way to control disease in humans.

The activation loop (A-loop) plays a key role in the activation of kinases. Many kinases switch on and off depending on the conformational state of the A-loop. The structural nature of these changes involves the phosphorylation of 1-3 residues in the A-loop, which, in turn, leads to the formation of salt bridges in the catalytic loop (C-loop) and the N-lobe. The N-lobe comprises residues from N1049 to M1160. Three important motifs are located in this lobe; the P-loop, the αC-helix and the Lys-Glu ionic pair. The precise alignment of which plays a critical role in the kinase catalytic activity. Other kinases do not require the phosphorylation of these A-loop residues to become active. It is thought that these kinases adopt a unique conformation and, as a result acidic residues in the A-loop, form a salt bridge with a conserved arginine residue in the C-loop. This allows access to the ATP binding pocket.

Upon tyrosine residue phosphorylation, the A-loop adopts a configuration optimized for substrate binding and catalysis. In many kinase structures resolved to date, the A-loop, in the phosphorylated form, adopts similar conformations to satisfy catalytic constraints and to provide a platform for substrate binding.

The activation loops in the unphosphorylated kinases exhibit a wide range of different conformations, which may explain their role in kinase activity regulation. In this unphosphorylated state, the A-loop can assume conformations ranging from fully open to completely closed (Huse, M. and Kuriyan, J. 2002. Cell 109:275-282). The open, autoinhibited, conformation has been observed in the crystal structures of fibroblast growth factor receptor (Mohammadi, M. et al. 1996. Cell, 86, 577-587) and c-Met (Wang, W. et al. 2006. Proc. Natl. Acad. Sci. USA 103:3563-3568). In this conformation of the fibroblast growth factor receptor, the A-loop is not suitable for substrate binding but does not obstruct the ATP binding site. In the closed, canonical, autoinhibited conformation, the activation loop folds as a pseudosubstrate, obstructing binding of both ATP and the peptide substrate.

The canonical, autoinhibited conformation has been detected in the unbound insulin receptor tyrosine kinase IRK, one of the most studied receptor tyrosine kinases (Hubbard, S. R. et al. 1994. Nature 372:746-754), c-Src kinase bound to the ATP analog AMP-PNP (Xu, W. et al. 1999. Molecular Cell 3:629-638), Hck bound to a small molecule inhibitor (Schindler, T. et al. 1999. Mol. Cell 3: 639-648), FLT3 receptor tyrosine kinase (Griffith, J. et al. 2004. Molecular Cell 13:69-178), c-Abl bound to Imatinib (Schindler, T. et al. 2000. Science 289, 1938-1942; Nagar, B. et al. 2002. Cancer Research 62:4236-4243), c-Kit tyrosine kinase receptor unbound and bound to Gleevec (Mol, C. D. et al. 2004. The Journal of Biological Chemistry 279:31655-31663), and more recently cFMS (colony stimulating factor receptor-1) bound to small molecule inhibitors (Schubert, C. et al. 2007. J. Biol. Chem. 282:4094-4101).

The majority of kinase inhibitors is believed to be interacting with the protein in a region which binds ATP. The conformation of the kinase, when bound by the inhibitors, is frequently very similar to the one in which ATP is bound, i.e., the active conformation of the kinase.

Typically, kinase inhibitors binding to the ATP pocket take advantage of limited sequence variations in the nucleotide binding site as well as conformational differences between phosphorylated and unphosphorylated forms of kinases. While phosphorylated forms may adopt similar conformations in different kinases, unphosphorylated, inactive conformations of kinases show great variability. Knowledge of these distinct kinase conformations allow rational drug design of high affinity, specific compounds.

A body of knowledge has given rise to the concept of ATP-competitive ligands and the use of X-ray crystallography to aid in their design. In such approaches it has become established that the ligand is required to at least in part to mimic the binding of ATP in the active site. The notion of these ligands competing for access to this site and on binding place the A-loop in a catalytically inactive conformation has been demonstrated by X-ray studies for the insulin-like receptor IGF1, IRK, cFMS, c-Abl, c-Kit, Flt3, MusK, etc.

More recently, a different type of kinase inhibitor has become known in the field. These new inhibitors appear to interact with an inactive form of the kinase in the ATP binding site. Stabilization of unphosphorylated inactive forms of RTKs provides a different approach to modulate signaling through kinases. It provides another mechanism to control over expression and non-ligand activation.

Controlling the position of the activation loop by use of small molecule inhibitors has been documented and shown by the use of X-ray crystallography. This technique provides a detailed structural insight into the mechanism by which the A-loop is prevented from achieving a catalytically active conformation. It is this technique which provides important and valuable information for the use of the design of more efficacious and selective kinase inhibitors.

In the case of the ATP-competitive ligand STI-571 binding to the inactive form of c-Abl, X-ray studies show that DFG is in the out conformation, and that the A-loop is held in an inactive conformation (Nagar, B. et al. 2002. Cancer Research 62:4236-4243).

Despite the identification of many agents which have been described to affect such control there remains a need for additional, novel and selective agents which offer the benefits of increased specificity and reduced side effects. Despite many reports, there remains a need to identify methods to inhibit the signaling through this important class of proteins.

The references cited herein are not admitted to be prior art to the claimed invention.

SUMMARY OF THE INVENTION

The invention provides a crystal structure including c-Met or c-Met kinase domain, and a ligand complexed thereto. In one aspect of the invention, the c-Met kinase domain comprises the amino acid sequence of cMet1 (SEQ ID NO: 1) from Table 1A or cMet2 (SEQ ID NO: 2) from Table 1B.

In certain embodiments of the invention, the ligand is a selective small molecule inhibitor of c-Met. In other embodiments of the invention, the inhibitor is (−)-trans-3-(5,6-dihydro-4H-pyrrolo[3,2,1-ij]quinolin-1-yl)-4(1H-indol-3-yl) pyrrolidine-2,5-dione, also known as “the selective c-Met inhibitor.”

The invention provides a process for constructing a c-Met inhibition model including the steps of crystallizing c-Met kinase domain bound to (−)-trans-3-(5,6-dihydro-4H-pyrrolo[3,2,1-ij]quinolin-1-yl)-4(1H-indol-3-yl) pyrrolidine-2,5-dione, resolving the x-ray crystallography of the c-Met kinase domain, applying the data generated from resolving the x-ray crystallography of the c-Met kinase domain to a computer algorithm, and generating from the computer algorithm a c-Met inhibition model suitable for screening or designing c-Met inhibitors. In one aspect of the invention, resolving the x-ray crystallography includes obtaining crystallographic coordinates for the c-Met kinase domain. The invention further provides a process for screening or designing c-Met inhibitors including using the c-Met inhibition model to screen or design c-Met inhibitors.

The invention provides a c-Met inhibition model including the crystallography coordinates of c-Met amino acids I_—1084, G_—1085, F_—1089, V_—1092, A_—1108, V_—1109, K_—1110, L_—1140, V_—1155, L_—1157, P_—1158, Y_—1159, M_—1160, K_—1161, H_—1162, G_—1163, D_—1164, M_—1211, A_—1221, D_—1222, F_—1223, A_—1226, and R_—1227 (SEQ ID NO: 11) which are within about a root mean square deviation of not more than about 1.5 Å from the backbone atoms of the amino acids according to Table 4. In one aspect of the invention, the crystallography coordinates contain coordinates of all the amino acids of c-Met that are within about a root mean square deviation of not more than about 1.5 Å from the backbone atoms of the amino acids according to Table 1A or Table 1B.

The invention provides a method for making an inhibition model for a kinase including the steps of performing sequence alignment between the amino acid sequences of the kinase and c-Met using four motifs: P-loop, salt-bridge, DFG-motif and the A-loop; identifying non-conserved residues between c-Met and the kinase, replacing the crystallography coordinates of the non-conserved residues in the c-Met inhibition model with those of the corresponding residues from the kinase, and refining the c-Met inhibition model with replaced crystallography coordinates to generate the inhibition model for the kinase. In one aspect of the invention, the method for making an inhibition model for a kinase further contains the step of evaluating the inhibition model for the kinase. In certain embodiments of the invention, the kinase is a tyrosine kinase. Alternatively, or in addition, the tyrosine kinase is a receptor tyrosine kinase. An exemplary receptor tyrosine kinase is selected from the group consisting of EGFR, VEGFR, FGFR, PDGFR, HER2, Kit, IRK, RET, AXL, FLT-3, EphB4, c-Met homologs, and c-Met mutants. In one embodiment of the invention, the receptor tyrosine kinase is FGFR-2. In another embodiment of the invention, the tyrosine kinase is a non-receptor tyrosine kinase. An exemplary non-receptor tyrosine kinase is selected from the group consisting of c-Abl, Src, Fyn, Lyn, and Yes. In one embodiment of the invention, the non-receptor tyrosine kinase is c-Abl. In one aspect of the invention, the kinase is a serine/threonine kinase. An exemplary serine/threonine kinase is selected from the group consisting of B-Raf, PIM, PAK, MEK, MAPK, AKT, and Aurora kinase.

The invention provides a c-Abl inhibition model including the crystallography coordinates of c-Abl amino acids L_—266, G_—267, Y_—271, V_—274, A_—287, V_—288, K_—289, V_—317, I_—331, T_—333, E_—334, F_—335, M_—336, T_—337, Y_—338, G_—339, N_—340, L_—388, A_—398, D_—399, F_—400, S_—403, and R_—404 (SEQ ID NO: 8) which are within about a root mean square deviation of not more than about 1.5 Å from the backbone atoms of the amino acids according to Table 5.

The invention also provides a method of similarity assessment including comparing the inhibition models of various kinases derived from the c-Met inhibition model. In one aspect of the invention, the models are compared applying a weighting system. In another aspect of the invention, the weighting system includes positive scores for residues critical for ligand binding, residues with side chain lining the inhibition model, and residues which are part of backbone of the inhibition model; and negative scores for additions, deletions and changes in backbone flexibility, or lack of residue alignment, and dramatic changes in size and/or polarity inside the inhibition model, lack of alignment of critical residues. In a further aspect of the invention, the positive score for residues critical for ligand binding is 2, for residues with side chain lining the inhibition model is 1, and for residues which are part of backbone of the inhibition model is 1; and the negative score for additions, deletions and changes in backbone flexibility, or lack of residue alignment is −1, and that for dramatic changes in size and/or polarity inside the inhibition model, lack of alignment of critical residues is −2. Alternatively, or in addition, conserved residue substitutions are assigned 1.

The invention provides a kinase inhibition model obtained by the method of making an inhibition model for a kinase as described above.

Finally, the invention provides a FGFR-2 inhibition model including the crystallography coordinates of FGFR-2 amino acids L_—487, G_—488, F_—492, V_—495, A_—515, V_—516, K_—517, I_—548, V 562, V 564, E_—565, Y 566, A 567, S 568, K 569, G_—570, N_—571, L_—633, A_—643, D_—644, F_—645, A 648, and R_—649 (SEQ ID NO: 10) which are within about a root mean square deviation of not more than about 1.5 Å from the backbone atoms of the amino acids according to Table 7.

Other features and advantages of the present invention are apparent from the additional descriptions provided herein including the different examples. The provided examples illustrate different components and methodology useful in practicing the present invention. The examples do not limit the claimed invention. Based on the present disclosure the skilled artisan can identify and employ other components and methodology useful for practicing the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic representation of the activation loop of unphosphorylated c-Met bound to the selective c-Met inhibitor (dark grey) superimposed with the peptide substrate (light grey) as seen in the phosphorylated insultin receptor IRK in complex with ATP and a peptide (Tyr residues are shown as sticks).

FIG. 2 is a schematic representation of the c-Met kinase domain, in which the activation loop is shown in the canonical, autoinhibitory, conformation forming a typical short anti-parallel strand.

FIG. 3 is a schematic representation of unphosphorylated c-Met bound to the selective c-Met inhibitor, in which Arg 1227 forms part of the inhibitor's binding site (dark grey).

FIG. 4 is a schematic representation of unphosphorylated c-Met bound to the selective c-Met inhibitor, in which a salt bridge, usually formed by the strictly conserved Lys (β3) and Glu (αC) residues that stabilize the phosphate group transfer, is disrupted as a result of the conformational changes of the A-loop and the helix αC.

DETAILED DESCRIPTION OF THE INVENTION

The present invention relates to methods of designing and screening for kinase inhibitors. The present invention provides a c-Met inhibition model. The present invention further provides a method to derive an inhibition model for another kinase from the c-Met inhibition model. The present invention also provides a method to compare inhibition models derived from multiple kinases in order to determine the degree of similarity between inhibition models.

The receptor tyrosine kinase (RTK) c-Met belongs to the HGF receptor family, which includes tyrosine kinases encoded by three oncogenes: MET (mesenchymal-epithelial transition factor), RON (also known as MST1R, macrophage stimulating 1 receptor (c-met-related tyrosine kinase)), and SEA (S13 erythroblastosis oncogene homolog (avian)).

These RTKs share specific structural features: a heterodimeric α-β subunits, two neighboring tyrosine residues in the kinase domain responsible for the activation upon phosphorylation and two tyrosine docking sites in the C-terminal domain tail.

The extracellular α- and transmembrane-β chains are present after receptor proteolitic cleavage and linked together by disulfide bonds. The intracellular β-subunit (residues 956-1390) can be further divided into juxtamembrane (residues 956-1093), catalytic and C-terminal domains. The C-terminal docking sites mediate high affinity interactions with multiple SH2-containing transducers of several key signaling pathways, including Ras, MAPK, PI3K, Src and Stat3 which contribute to the malignant features of Met.

Ligand binding to the extracellular domain of the RTKs leads to dimerization of monomeric receptors resulting in autophosphorylation of specific tyrosine residues in the cytoplasmic domain. RTKs are subject to several auto regulatory mechanisms to limit ligand-independent activation. One of these mechanisms is the phosphorylation of the kinase activation loop. The tyrosine doublet is present at homologous locations in the A-loop in RON and SEA.

The structure of the unphosphorylated kinase domain of c-Met bound to the selective c-Met inhibitor is an example of how a small molecule can achieve specificity by recognizing and binding the canonical, autoinhibited form of the kinase. Herein we describe a novel mechanism of inhibition of the receptor tyrosine kinase (RTK) c-Met and its use to define an inhibition model of general application in the identification of novel kinase inhibitors.

1. The Structure of the c-Met Bound to the Selective c-Met Inhibitor

(−)-trans-3-(5,6-dihydro-4H-pyrrolo[3,2,1-ij]quinolin-1-yl)-4(1H-indol-3-yl)pyrrolidine-2,5-dione is a selective c-Met inhibitor (WO 2006/086484 A1).

A 2-Å resolution X-ray crystallographic shows that this compound binds to the unphosphorylated kinase domain of c-Met. This compound is referred to herein as “the selective c-Met inhibitor.”

The selective c-Met inhibitor is a single enantiomer that binds unphosphorylated c-Met at the highly conserved nucleotide-binding pocket. Overall the c-Met structure resembles the structures resolved for other tyrosine kinases in the presence of inhibitors such as Gleevec bound to c-Abl kinase and small molecules bound to cFMS. Structures of other receptor tyrosine kinases such as insulin receptor, cKit, Flt-3 in the absence of ligands also share a similar fold. In all these structures the activation loop is in the canonical, autoinhibitory conformation, blocking the access of ATP and the peptide substrate to the active site. In this particular conformation a tyrosine residue is in a pseudosubstrate conformation, buried deeply into the protein, making hydrogen bonds with important residues in the catalytic loop.

The structure of the c-Met bound to the selective c-Met inhibitor was compared with the inactive structure of c-Met in the public domain (PDB entry 2G15). In this structure, Tyr 1234 is not available for phosphorylation. The A-loop is in a different, open conformation. It is possible that the selective c-Met inhibitor recognizes and binds this particular, autoinhibitory conformation of c-Met, as it has been suggested for Gleevec bound to c-Abl and c-Kit kinases.

1.1. P-Loop Contains a Phenylalanine or a Similar Residue Able to Form Stacking Interaction with the Ligand

Another important structural motif of a kinase is the phosphate binding loop (P-loop). This loop contains a conserved glycine residue rich sequence (GXGXΦG), where Φ is usually a tyrosine or phenylalanine. The glycine residues allow the coordination of the ATP by well defined backbone interactions. In the absence of ATP, the P-loop is very flexible allowing the binding of small molecules. Some inhibitors stabilize this loop by interacting with the conserved aromatic residue, as is the case of crystal structures of Abl, FGFR in complex with inhibitors STI-571 (PDB entry 2HYY), SU-5402 (PDB entry 1FGI), and unphosphorylated c-Met bound to the selective c-Met inhibitor.

The nucleotide binding loop, the P-loop is well ordered in the structure of c-Met bound to the selective c-Met inhibitor, where residues 11084 to G1087 form part of the β1 strand. F1089 stabilizes the downfold of the loop by van de Waals contacts with the selective c-Met inhibitor.

1.2. A Tyrosine Residue in the A-Loop is Able to Interfere with the Peptide Substrate Binding

Autophosphorylation of key tyrosine residues in the catalytic core of the RTK enhances kinase activity. In the case of c-Met, Y1235 has been described as being the site of autophosphorylation and playing this regulatory role.

In the structure of c-Met bound to the selective c-Met inhibitor, the activation loop is in the canonical, autoinhibitory conformation with a short anti-parallel strand. Two tyrosine residues Y1234 and Y1235 located in the A-loop of the kinase domain are responsible for c-Met catalytic activity and in the structure of c-Met bound to the selective c-Met inhibitor, Y1234 is exposed. However, Y1235 is sequestered into the active site occupying the site of the substrate tyrosine. Un-phosphorylated Y1235 is held by a hydrogen bond network formed by catalytic loop (C-loop) D1204 and R1208. The arginine residue engages in hydrogen bonding interactions that orient asparagine ensuring the inaccessibility of Y1235.

1.3. Phenylalanine (of the DFG Motif which Consists of Residues D1222, F1223 and G1224 in the Activation Loop) Prevents the ATP Binding.

Most of our knowledge about RTK comes from structural and biochemical studies on the insulin receptor kinase IRK. Structures of IRK show that sequestration of the tyrosine residue in the active site is correlated with the movement away from the active site of a number of critical important residues. When the apo structure (DFG-out) is superposed with the phosphorylated IRK (DFG-in) in complex with ATP analog and a peptide substrate (PDB entry IRK3) the side chain of F1151 occupies the pocket of the adenine ring and the activation loop intersects the β- and γ-phosphate groups.

The positioning of phenylalanine from the DFG motif is critical for the proper orientation of the aspartic acid (DFG) which coordinates an essential Mg²⁺ and the ATP. Conformational changes of the DFG-motif are often linked to the conformation of the αC-helix, the only conserved helix in the β sheet-rich N terminal domain. An absolute conserved glutamic acid residue located in αC-helix forms an ion pair with another conserved lysine residue from the β3 sheet. This ion pair coordinates the α- and β-phosphates of the ATP.

In the structure of c-Met bound to the selective c-Met inhibitor, a ‘DFG-out’ conformation is present. The aspartic acid (of the DFG) points away from where the ATP would bind and phenylalanine is situated in the approximated position of the ATP adenine moiety. Stabilization of this portion of the A-loop is provided, in part, by the tricyclic group of the selective c-Met inhibitor, which makes van der Waals interactions with the phenylalanine residue from the DFG motif. In this way, although the hydroxyl group of Y1234 is in position for phospho-transfer, the DFG-out motif occludes the ATP binding site from interfering with phopho-transfer.

1.4. The Salt Bridge Between Lysine (N-Terminus) and Glutamic Acid (αC Helix) is Disrupted

The αC helix is a key regulatory element of protein kinases. Due to its proximity to the active site and its interactions with many conserved and essential kinase elements, the orientation of this helix is critical for catalytic activity. This helix contains a conserved glutamic acid residue that forms an ion pair with a lysine residue from the N-lobe. Glutamic acid is a strictly conserved feature in the kinase family and lysine is part of the protein kinase ATP binding region signature (PROSITE rule PS00107). The lysine residue coordinates the α- and the β-phosphates of ATP and is required for kinase activity. Moreover, the αC helix often interacts with the DFG motif of the activation loop.

In the structure of c-Met bound to the selective c-Met inhibitor, the alignment of the lysine-glutamic acid ion pair is disrupted, K1110 and E1127 are 16 Å apart, accentuating the inactive nature of the c-Met kinase conformation in the presence of the selective c-Met inhibitor.

When the αC helix of the complex formed by c-Met bound to the selective c-Met inhibitor is compared to the fully activated IRK structure bound to ATP and a peptide substrate, it is clear that the αC helix is partially disrupted and shifted away from the N-lobe. This movement, which is a combination of rotation and translation, results from the insertion of the activation loop deep between the P-loop and the αC helix.

In the structure formed by the complex formed when c-Met is bound to the selective c-Met inhibitor, the β3-αC loop has several contacts with the activation loop that are not observed in apo c-Met. R1114 from the β3-αC loop makes two contacts with the activation loop: R1114 forms salt bridges with G1224 from the DFG motif and with the carbonyl oxygen of R1227. In the structure of the apo c-Met kinase domain, the β3-αC loop adopts a more open conformation because the side chain of R1114 extends in the opposite direction towards the solvent.

An additional important feature of the activation loop is the conformation of R1227. It is hypothesized that R1227 plays a critical role in the stabilization of the activation loop by hydrogen bonding to the activated tyrosine upon phosphorylation (Johnson, L. M. and Noble, M. E. M. 1996. Cell, 85: 149-158). Three structures are often used to illustrate this interaction. First, the fully activated, triple phosphorylated insulin receptor kinase when bound to ATP and a peptide (1IR3). In this instance, the equivalent residue to R1227 in c-Met, residue R1155, makes hydrogen bonds with the phosphate group of Y1163. Second, a similar role has been described for R387 in the active form of the Hck tyrosine kinase (3LCK). With respect to Hck, R387 is making a hydrogen bond with the phosphorylated Y394. Finally, residue K189 of the serine/threonine kinase PKA bound to balanol (1BX6) fulfills a similar role. Using the foregoing examples as evidence, it is assumed that a critical role for R1227 is providing stabilization to the activation loop upon phosphorylation of c-Met.

The structures provided herein are contrary to published structures. For instance, in recently published structures of c-Met bound to small molecule inhibitors, the side chain of R1227 is missing (Bellon, S. F. ET AL. 2008. J. Biol. Chem. 283: 2675-2683; Albrecht, B. K. ET AL. 2008. J. Med. Chem. 51: 2879-2882). Similarly, in the structure of human Abl bound to Gleevec, the corresponding residue R386 is also missing (Cowan-Jacob, S. W. et al. 2007. ACTA CRYSTALLOGR., SECT. D 63: 80-93).

However, in the structure of the complex of c-Met bound to the selective c-Met inhibitor provided herein, R1227 is locked away from Y1234 and Y1235 through a direct hydrogen bond with N1209 and a water-mediated hydrogen bond to R1208, presenting the hydrophobic chain to the inhibitor. This van der Waals contact with the selective c-Met inhibitor restricts the movement of R1227 and prevents phosphate stabilization upon activation. Such a conformational change of this part of the activation loop, brought about by the selective c-Met inhibitor, is similar to that described for the activation loop containing R801 and a small molecule inhibitor of the autoinhibited cFMS (Schubert, C. ET AL. 2007. J. Biol. Chem. 282:4094-4101), the R815 residue of apo c-Kit bound to Gleevec (Mol, C. D. ET AL. 2004. The Journal of Biological Chemistry 279:31655-31663), and the R834 residue of apo Flt-3 (Griffith, J. ET AL. 2004. Molecular Cell 13:69-178).

1.5. A Small Molecule is Stabilizing 1-4, Preventing ATP and Peptide Binding

In the structure of c-Met bound to the selective c-Met inhibitor, the small molecule is placed in the interdomain cleft between the N (residues 1049-1160)- and C-lobes (residues 1161-1346). The carbonyl group from the succinamide ring forms hydrogen bond with the backbone amide of M1160 and the N—H group forms hydrogen bonds with the backbone carbonyl of P1158. The indole ring is close to the ATP binding site opening while the tricyclic ring is bound deep inside the hydrophobic pocket. The tricyclic moiety of the selective c-Met inhibitor forms van der Waals interactions with phenylalanine residues F1089 from the P-loop and F1223 from the DFG motif. European Patent Application No. EP1243596A2 (the contents of which are incorporated herein in their entirety) describes a small molecule bound to the kinase domain of c-Met. The structure of c-Met bound to the selective c-Met inhibitor differs significantly. Of particular note are differences in the P-loop and the A-loops. The selective c-Met inhibitor makes a van de Waals contact with the residue F1089 at the apex of the P-loop, F1089 of cMet (described in EP1243596A2, the contents of which are incorporated by reference in their entirety) is inserted towards the αC helix. Also of note are differences between the residue F1223. This residue is in the -out conformation while in the above mentioned patent it is in the -in conformation. The selective c-Met inhibitor prevents this residue from occupying a region close to the triphosphate binding site found when ATP binds the catalytic site.

European Patent Application No. EP1243596A2 provides the wild-type sequence of the c-Met kinase (SEQ ID NO: 12) shown below:

MKAPAVLAPGILVLLFTLVQRSNGECKEALAKSEMNVNMKYQLPNFTAE

TPIQNVILHEHHIFLGATNYIYVLNEEDLQKVAEYKTGPVLEHPDCFPC

QDCSSKANLSGGVWKDNINMALVVDTYYDDQLISCGSVNRGTCQRHVFP

HNHTADIQSEVHCIFSPQIEEPSQCPDCVVSALGAKVLSSVKDRFINFF

VGNTINSSYFPDHPLHSISVRRLKETKDGFMFLTDQSYIDVLPEFRDSY

PIKYVHAFESNNFIYFLTVQRETLDAQTFHTRIIRFCSINSGLHSYMEM

PLECILTEKRKKRSTKKEVFNILQAAYVSKPGAQLARQIGASLNDDILF

GVFAQSKPDSAEPMDRSAMCAFPIKYVNDFFNKIVNKNNVRCLQHFYGP

NHEHCFNRTLLRNSSGCEARRDEYRTEFTTALQRVDLFMGQFSEVLLTS

ISTFIKGDLTIANLGTSEGRFMQVVVSRSGPSTPHVNFLLDSHPVSPEV

IVEHTLNQNGYTLVITGKKITKIPLNGLGCRHFQSCSQCLSAPPFVQCG

WCHDKCVRSEECLSGTWTQQICLPAIYKVFPNSAPLEGGTRLTICGWDF

GFRRNNKFDLKKTRVLLGNESCTLTLSESTMNTLKCTVGPAMNKHFNMS

IIISNGHGTTQYSTFSYVDPVITSISPKYGPMAGGTLLTLTGNYLNSGN

SRHISIGGKTCTLKSVSNSILECYTPAQTISTEFAVKLKIDLANRETSI

FSYREDPIVYEIHPTKSFISGGSTITGVGKNLNSVSVPRMVINVHEAGR

NFTVACQHRSNSEIICCTTPSLQQLNLQLPLKTKAFFMLDGILSKYFDL

IYVHNPVFKPFEKPVMISMGNENVEIKGNDIDPEAVKGEVLKVGNKSCE

NIHLHSEAVLCTVPNDLLKLNSELNIEWKQAISSTVLGKVIVQPDQNFT

GLIAGVVSISTALLLLLGFFLWLKKRKQIKDLGSELVRYDARVHTPHLD

RLVSARSVSPTTEMVSNESVDYRATFPEDQFPNSSQNGSCRQVQYPLTD

MSPILTSGDSDISSPLLQNTVHIDLSALNPELVQAVQHVVIGPSSLIVH

FNEVIGRGHFGCVYHGTLLDNDGKKIHCAVKSLNRITDIGEVSQFLTEG

IIMKDFSHPNVLSLLGICLRSEGSPLVVLPYMKHGDLRNFIRNETHNPT

VKDLIGFGLQVAKGMKYLASKKFVHRDLAARNCMLDEKFTVKVADFGLA

RDMYDKEYYSVHNKTGAKLPVKWMALESLQTQKFTTKSDVWSFGVVLWE

LMTRGAPPYPDVNTFDITVYLLQGRRLLQPEYCPDPLYEVMLKCWHPKA

EMRPSFSELVSRISAIFSTFIGEHYVHVNATYVNVKCVAPYPSLLSSED

NADDEVDTRPASFWETS

1.6. Computers, Computer Software, Computer Modeling

Computers are known in the art and may include a central processing unit (CPU), a working memory, which can be random-access memory, core memory, mass-storage memory, or combinations of all of the aforementioned.

The CPU may encode one or more programs. Computers may also include display, and input and output devices, such as one or more cathode-ray tube display terminals, keyboards, modems, input lines and output lines. Persons skilled in the computer art will understand that many variations of a computer exist in the art and all such variations are applicable to the present invention. Further, said computers may be networked to computer servers (the machine on which large calculations can be run in batch), and file servers (the main machine for all the centralized databases). Machine-readable media containing data, such as the crystal structure coordinates of the polypeptides of the invention may be inputted using various hardware, including modems, CD-ROM drives, disk drives, or keyboards

Output hardware, such as a CRT display terminal may be used for displaying a graphical representation of the HGFR polypeptide of the invention or the c-Met substrate-binding domain of these polypeptides using programs such as QUANTA. Output hardware may also include a printer, and disk drives.

The CPU coordinates the use of the various input and output devices, coordinates data accesses from storage and accesses to and from working memory, and determines the sequence of data processing steps. A number of programs may be used to process the machine-readable data of this invention. Such programs are discussed in reference to the computational methods of drug discovery as described herein.

Thus, one embodiment of the present invention includes X-ray coordinate data capable of being processed into a three dimensional graphical display of a molecule or molecular complex that comprises an c-Met-like substrate-binding pocket stored in a machine-readable storage medium. The three-dimensional structure of a molecule or molecular complex comprising an c-Met-like substrate-binding pocket may be used for a variety of purposes, including, but not limited to, drug discovery.

For example, the three-dimensional structure derived from the structure coordinate data may be computationally evaluated for its ability to associate with chemical entities. Such entities would be potential drug candidates and would be evaluated for their ability to inhibit or modulate the activity of c-Met.

As used herein, the term “three dimensional representation” refers to converting the lists of structure coordinates into structural models or graphical representation in three-dimensional space. The three dimensional structure may be displayed or used to perform computer modeling or fitting operations.

“Inhibition model”, refers to a region or regions of proteins that can associate with another chemical entity or compound. Such regions are of significant utility in fields such as drug discovery. These regions are formed by amino acid residues key for ligand binding or may be residues that are spatially related and define a three-dimensional shape of the binding pocket. The amino acid residues may be contiguous or non-contiguous in primary sequence. The region or regions may be embodied as a dataset (e.g. an array) recorded on computer readable media.

The term “motif” refers to a group of amino acid residues in proteins that defines a structural compartment or carries out a function in the protein, for example, catalysis, structural stabilization or phosphorylation. The motif may be conserved in sequence, structure and function. The motif can be contiguous in primary sequence or three-dimensional space. Examples of a motif include, but are not limited to, a binding pocket; activation loop, the glycine-rich or P-loop, and the DFG loop.

The term “homology model” refers to a set of coordinates derived from known three-dimensional structure used as a template. Generation of the homology model, termed “homology modeling”, involves sequence alignment, residue replacement, residue conformation adjustment through energy minimization

The term “part of the inhibition model” also referred as “part of a binding pocket” refers to less than all of the amino acid residues that define the binding pocket. The structure coordinates of amino acid residues that constitute part of a binding pocket may be specific for defining the chemical environment of the binding pocket, or useful in designing fragments of an inhibitor that may interact with those residues. Part of the inhibition model has at least five amino acid residues, preferably at least, ten to fourteen amino acid residues.

The term “chemical entity” refers to chemical compounds, complexes of at least two chemical compounds, and fragments of such compounds or complexes.

The “Chemical structure” term is applied to any atom or group of atoms that constitute a part of a molecule. Normally, chemical structures of a scaffold or ligand have a role in binding to a target molecule.

The term “associating with” or “binds to” or “binding affinity” refers to a condition of proximity between a chemical entity or compound, or portions thereof, and the inhibition model, or binding pocket or binding site on a protein. The association may be non-covalent, for example, wherein the juxtaposition is energetically favored by hydrogen bonding, van der Waals and/or electrostatic interactions

The term “interaction energy” refers to the energy determined for the interaction of a chemical entity and a binding pocket, domain, molecule or molecular complex or portion thereof, Interactions include but are not limited to one or more of covalent interactions, non-covalent interactions such as hydrogen bond, electrostatic, hydrophobic, aromatic, van der Waals interactions, and non-complementary electrostatic interactions such as repulsive charge-charge, dipole-dipole and charge-dipole interactions. As interaction energies are measured in negative values, the lower the value the more favorable the interaction.

For the purposes of this description and the following claims, the term “crystal structure” of a composition shall mean a computer readable medium in which is stored a representation of three dimensional positional information for atoms of the composition.

2.1 Construction of c-Met Inhibition Model

The model for the inhibition of c-Met kinase is constructed by the preparation of the 3-dimensional representation of the c-Met protein based on crystallographic structure of c-Met bound to the selective c-Met inhibitor complex.

An electronic representation of c-Met-ligand kinase domain structure was obtained from X-ray crystallographic data. Crystals of the ligand complexes of c-Met kinase can be grown by a number of techniques including batch crystallization, vapor diffusion (either by sitting drop or hanging drop) and by microdialysis. Seeding of the crystals in some instances is required to obtain X-ray quality crystals. Standard micro and/or macro seeding of crystals may therefore be used.

Once a crystal of the present invention is grown, X-ray diffraction data can be collected. X-ray diffraction data collection can be obtained using, for example, a MAR imaging plate detector. Crystals can be characterized by using X-rays produced in a conventional source (such as a sealed tube or a rotating anode) or using a synchrotron source.

Data processing and reduction can be carried out using programs such as HKL, DENZO, and SCALEPACK (Otwinowski and Minor, 1997, Meth. Enymol. 276:307-326 (1997)). In addition, X-PLOR, (Bruger, X-PLOR v.3.1 Manual, New Haven: Yale University, (1993)) or Heavy (T. Terwilliger, Los Alamos National Laboratory) may be utilized for bulk solvent correction and B-factor scaling. Electron density maps can be calculated using SHARP (La Fortelle, E. D. and Bricogne G., Meth. Enzymol. 276:472-494 (1997)) and SOLOMON. Molecular models can be built into this map using O (Jones, T. et al., ACTA Crystallogr. A47:110-119 (1991)), XTALVIEW (Scripps Research) or QUANTA96 (Accelrys, Inc. San Diego). Refinement can be done using XPLOR (Brunger, “X-PLOR:A System for X-ray Crystallography and NMR,” Yale University Press, New Haven, Conn.), using the free R-value to monitor the course of refinement. Molecular replacement involves using a known three-dimensional structure as a search model to determine the structure of an identical or closely related molecule or protein-ligand complex in a new crystal form. The measured X-ray diffraction properties of the new crystal are compared with those calculated from a search model structure to compute the position and orientation of the protein in the new crystal. Computer programs that can be used for this purpose include: X-PLOR, EPMR (Kissinger et al. Acta Cryst. D55:484-491 (1999)), ProLSQ and AMORE (J. Navaza, Acta Crystallographics ASO, 157-163 (1994)). Once the position and orientation are known an electron density map can be calculated using the search model to provide X-ray phases. Thereafter, the electron density is inspected for structural differences and the search model is modified to conform to the new structure. Other computer programs that can be used to solve the structures of kinase crystals include X-site, QUANTA, INSIGHT, ARP/wARP, and ICM.

The amino acids of the kinase domain of c-Met1 bound to the selective c-Met inhibitor are described herein and are defined by a set of structure coordinates set forth in Table 1A. The amino acids of the kinase domain of c-Met2 bound to the selective c-Met inhibitor are described herein and are defined by a set of structure coordinates set forth in Table 1B. The terms “structure coordinates” or “atomic coordinates” refer to Cartesian coordinates derived from mathematical equations related to the patterns obtained on diffraction of a monochromatic beam of X-rays by the atoms (scattering centers) of a protein or protein-ligand complex in crystal form. The diffraction data are used to calculate an electron density map of the repeating unit of the crystal. The electron density maps are then used to establish the positions of the individual atoms of the enzyme or enzyme complex.

TABLE 1A

(SEQ ID NO: 1)

ATOM	1	CB	LEU	A1046	−12.128	23.172	12.578	56.91	C
ATOM	2	CG	LEU	A1046	−10.61	22.897	12.417	57.12	C
ATOM	3	CD1	LEU	A1046	−10.172	21.715	13.29	57.11	C
ATOM	4	CD2	LEU	A1046	−10.196	22.666	10.944	56.48	C
ATOM	5	C	LEU	A1046	−11.878	25.227	14.012	55.44	C
ATOM	6	O	LEU	A1046	−11.778	26.019	13.032	55.74	O
ATOM	7	N	LEU	A1046	−14.148	24.094	13.796	56.63	N
ATOM	8	CA	LEU	A1046	−12.645	23.903	13.852	56.54	C
ATOM	9	N	LEU	A1047	−11.331	25.48	15.21	53.3	N
ATOM	10	CA	LEU	A1047	−10.406	26.598	15.301	50.4	C
ATOM	11	CB	LEU	A1047	−10.5	27.402	16.574	51.71	C
ATOM	12	CG	LEU	A1047	−10.362	28.806	15.979	51.83	C
ATOM	13	CD1	LEU	A1047	−11.47	28.957	14.891	53.47	C
ATOM	14	CD2	LEU	A1047	−10.363	29.918	17.042	52	C
ATOM	15	C	LEU	A1047	−8.96	26.289	14.95	48.45	C
ATOM	16	O	LEU	A1047	−8.275	25.497	15.594	48.01	O
ATOM	17	N	GLN	A1048	−8.562	26.995	13.891	44.96	N
ATOM	18	CA	GLN	A1048	−7.335	26.9	13.179	40.88	C
ATOM	19	CB	GLN	A1048	−7.455	25.718	12.207	42.63	C
ATOM	20	CG	GLN	A1048	−7.818	25.972	10.72	41.6	C
ATOM	21	CD	GLN	A1048	−6.669	25.468	9.808	44.09	C
ATOM	22	OE1	GLN	A1048	−5.912	26.261	9.217	39.73	O
ATOM	23	NE2	GLN	A1048	−6.52	24.143	9.728	46.71	N
ATOM	24	C	GLN	A1048	−7.28	28.319	12.517	38.85	C
ATOM	25	O	GLN	A1048	−6.273	28.777	11.876	36.37	O
ATOM	26	N	ALA	A1049	−8.408	29.017	12.748	35.35	N
ATOM	27	CA	ALA	A1049	−8.506	30.471	12.686	31.97	C
ATOM	28	CB	ALA	A1049	−9.981	30.902	12.748	31.67	C
ATOM	29	C	ALA	A1049	−7.691	30.943	13.89	29.81	C
ATOM	30	O	ALA	A1049	−7.868	32.004	14.431	29.2	O
ATOM	31	N	THR	A1050	−6.732	30.11	14.251	27.92	N
ATOM	32	CA	THR	A1050	−5.889	30.248	15.41	26.75	C
ATOM	33	CB	THR	A1050	−6.401	29.283	16.498	27.8	C
ATOM	34	OG1	THR	A1050	−5.967	29.726	17.75	29.58	O
ATOM	35	CG2	THR	A1050	−5.908	27.822	16.32	31.14	C
ATOM	36	C	THR	A1050	−4.448	29.924	15.044	24.25	C
ATOM	37	O	THR	A1050	−3.59	30.157	15.797	24.4	O
ATOM	38	N	VAL	A1051	−4.212	29.439	13.836	23.39	N
ATOM	39	CA	VAL	A1051	−2.877	28.99	13.358	22.24	C
ATOM	40	CB	VAL	A1051	−2.947	27.788	12.359	20.45	C
ATOM	41	CG1	VAL	A1051	−1.579	27.485	11.875	18.55	C
ATOM	42	CG2	VAL	A1051	−3.595	26.532	13.011	19.38	C
ATOM	43	C	VAL	A1051	−2.1	30.118	12.657	22.8	C
ATOM	44	O	VAL	A1051	−2.522	30.662	11.621	22.92	O
ATOM	45	N	HIS	A1052	−0.978	30.488	13.223	22.7	N
ATOM	46	CA	HIS	A1052	−0.228	31.494	12.584	23.68	C
ATOM	47	CB	HIS	A1052	−0.265	32.834	13.364	22.38	C
ATOM	48	CG	HIS	A1052	0.836	33.742	12.975	22.43	C
ATOM	49	CD2	HIS	A1052	2.061	33.943	13.536	27.19	C
ATOM	50	ND1	HIS	A1052	0.821	34.463	11.794	19.13	N
ATOM	51	CE1	HIS	A1052	1.969	35.092	11.658	24.7	C
ATOM	52	NE2	HIS	A1052	2.74	34.811	12.711	28.02	N
ATOM	53	C	HIS	A1052	1.174	30.932	12.455	24.4	C
ATOM	54	O	HIS	A1052	1.745	30.455	13.427	24.15	O
ATOM	55	N	ILE	A1053	1.716	30.972	11.242	26.45	N
ATOM	56	CA	ILE	A1053	3.121	30.613	11.024	27.16	C
ATOM	57	CB	ILE	A1053	3.251	29.516	9.914	28.26	C
ATOM	58	CG2	ILE	A1053	4.734	29.093	9.685	26.49	C
ATOM	59	CG1	ILE	A1053	2.359	28.302	10.239	29.2	C
ATOM	60	CD1	ILE	A1053	2.763	27.523	11.503	29.05	C
ATOM	61	C	ILE	A1053	3.87	31.843	10.573	27.98	C
ATOM	62	O	ILE	A1053	3.477	32.505	9.609	28.95	O
ATOM	63	N	ASP	A1054	4.961	32.165	11.241	29.63	N
ATOM	64	CA	ASP	A1054	5.824	33.221	10.723	31.12	C
ATOM	65	CB	ASP	A1054	6.616	33.903	11.853	31.79	C
ATOM	66	CG	ASP	A1054	7.232	35.248	11.435	33.67	C
ATOM	67	OD1	ASP	A1054	7.123	35.707	10.245	31.69	O
ATOM	68	OD2	ASP	A1054	7.858	35.842	12.343	36.33	O
ATOM	69	C	ASP	A1054	6.716	32.541	9.714	31.2	C
ATOM	70	O	ASP	A1054	7.551	31.707	10.089	30.57	O
ATOM	71	N	LEU	A1055	6.476	32.851	8.443	33.07	N
ATOM	72	CA	LEU	A1055	7.198	32.223	7.316	35.79	C
ATOM	73	CB	LEU	A1055	6.468	32.463	5.965	35.66	C
ATOM	74	CG	LEU	A1055	5.094	31.724	5.872	35.17	C
ATOM	75	CD1	LEU	A1055	4.42	31.654	4.439	30.21	C
ATOM	76	CD2	LEU	A1055	5.19	30.345	6.57	30.42	C
ATOM	77	C	LEU	A1055	8.702	32.622	7.259	37.77	C
ATOM	78	O	LEU	A1055	9.593	31.826	6.823	38.16	O
ATOM	79	N	SER	A1056	8.996	33.842	7.712	38.44	N
ATOM	80	CA	SER	A1056	10.361	34.138	8.058	39.83	C
ATOM	81	CB	SER	A1056	10.53	35.611	8.209	39.82	C
ATOM	82	OG	SER	A1056	11.807	35.884	7.633	46.45	O
ATOM	83	C	SER	A1056	10.692	33.399	9.366	39.54	C
ATOM	84	O	SER	A1056	9.778	32.908	10.012	40.79	O
ATOM	85	N	ALA	A1057	11.954	33.251	9.762	38.82	N
ATOM	86	CA	ALA	A1057	12.222	32.456	10.987	38.37	C
ATOM	87	CB	ALA	A1057	11.15	32.739	12.058	38.35	C
ATOM	88	C	ALA	A1057	12.288	30.949	10.736	38.3	C
ATOM	89	O	ALA	A1057	12.676	30.15	11.618	37.56	O
ATOM	90	N	LEU	A1058	11.81	30.567	9.554	38.37	N
ATOM	91	CA	LEU	A1058	11.986	29.242	9.036	38.18	C
ATOM	92	CB	LEU	A1058	11.113	29.053	7.79	38.51	C
ATOM	93	CG	LEU	A1058	9.756	28.341	7.928	37.27	C
ATOM	94	CD1	LEU	A1058	9.136	28.263	6.541	35.77	C
ATOM	95	CD2	LEU	A1058	9.864	26.954	8.632	34.79	C
ATOM	96	C	LEU	A1058	13.445	29.182	8.652	38.37	C
ATOM	97	O	LEU	A1058	13.942	30.156	8.091	36.78	O
ATOM	98	N	ASN	A1059	14.11	28.051	8.952	39.31	N
ATOM	99	CA	ASN	A1059	15.505	27.793	8.556	40.53	C
ATOM	100	CB	ASN	A1059	15.835	26.343	8.802	41.11	C
ATOM	101	CG	ASN	A1059	17.226	25.977	8.342	45.43	C
ATOM	102	OD1	ASN	A1059	17.992	25.369	9.092	51.44	O
ATOM	103	ND2	ASN	A1059	17.569	26.327	7.112	49.14	N
ATOM	104	C	ASN	A1059	15.768	28.158	7.071	41.05	C
ATOM	105	O	ASN	A1059	15.198	27.542	6.158	40.67	O
ATOM	106	N	PRO	A1060	16.577	29.206	6.827	41.31	N
ATOM	107	CD	PRO	A1060	17.241	30.03	7.84	41.79	C
ATOM	108	CA	PRO	A1060	16.835	29.7	5.483	41.66	C
ATOM	109	CB	PRO	A1060	17.753	30.888	5.721	42.18	C
ATOM	110	CG	PRO	A1060	17.385	31.301	7.127	43.84	C
ATOM	111	C	PRO	A1060	17.483	28.659	4.578	41.37	C
ATOM	112	O	PRO	A1060	17.289	28.689	3.372	40.14	O
ATOM	113	N	GLU	A1061	18.217	27.727	5.17	41.83	N
ATOM	114	CA	GLU	A1061	18.738	26.625	4.399	42.84	C
ATOM	115	CB	GLU	A1061	19.811	25.863	5.194	44.84	C
ATOM	116	CG	GLU	A1061	21.075	25.53	4.347	48.59	C
ATOM	117	CD	GLU	A1061	21.714	26.811	3.785	53.07	C
ATOM	118	OE1	GLU	A1061	21.973	27.726	4.605	55.39	O
ATOM	119	OE2	GLU	A1061	21.919	26.916	2.539	55.02	O
ATOM	120	C	GLU	A1061	17.627	25.663	3.957	41.97	C
ATOM	121	O	GLU	A1061	17.714	25.019	2.895	42.05	O
ATOM	122	N	LEU	A1062	16.596	25.539	4.785	39.78	N
ATOM	123	CA	LEU	A1062	15.602	24.545	4.529	37.71	C
ATOM	124	CB	LEU	A1062	14.842	24.154	5.797	37.57	C
ATOM	125	CG	LEU	A1062	13.492	23.442	5.605	38.39	C
ATOM	126	CD1	LEU	A1062	13.118	22.609	6.804	41.69	C
ATOM	127	CD2	LEU	A1062	12.386	24.433	5.387	38.42	C
ATOM	128	C	LEU	A1062	14.701	25.111	3.449	36.6	C
ATOM	129	O	LEU	A1062	14.26	24.355	2.556	35.41	O
ATOM	130	N	VAL	A1063	14.492	26.43	3.493	34.92	N
ATOM	131	CA	VAL	A1063	13.566	27.111	2.567	34.29	C
ATOM	132	CB	VAL	A1063	13.244	28.526	3.087	34.3	C
ATOM	133	CG1	VAL	A1063	12.661	28.432	4.463	34.16	C
ATOM	134	CG2	VAL	A1063	14.486	29.41	3.087	33.47	C
ATOM	135	C	VAL	A1063	14.005	27.153	1.079	34.81	C
ATOM	136	O	VAL	A1063	13.196	27.221	0.151	33.36	O
ATOM	137	N	GLN	A1064	15.317	27.136	0.839	36.44	N
ATOM	138	CA	GLN	A1064	15.766	27.189	−0.531	36.8	C
ATOM	139	CB	GLN	A1064	17.107	27.891	−0.714	37.34	C
ATOM	140	CG	GLN	A1064	18.298	26.933	−0.903	42.24	C
ATOM	141	CD	GLN	A1064	18.941	26.556	0.423	48.21	C
ATOM	142	OE1	GLN	A1064	19.424	25.401	0.631	46.84	O
ATOM	143	NE2	GLN	A1064	18.93	27.533	1.361	49.57	N
ATOM	144	C	GLN	A1064	15.785	25.789	−1.019	35.4	C
ATOM	145	O	GLN	A1064	15.745	25.572	−2.223	36.53	O
ATOM	146	N	ALA	A1065	15.822	24.836	−0.102	34.9	N
ATOM	147	CA	ALA	A1065	15.734	23.427	−0.484	34.73	C
ATOM	148	CB	ALA	A1065	16.265	22.522	0.617	33.98	C
ATOM	149	C	ALA	A1065	14.294	23.02	−0.867	35.39	C
ATOM	150	O	ALA	A1065	14.084	21.938	−1.404	37.15	O
ATOM	151	N	VAL	A1066	13.299	23.857	−0.567	34.68	N
ATOM	152	CA	VAL	A1066	11.925	23.526	−0.857	33.72	C
ATOM	153	CB	VAL	A1066	11.105	23.259	0.451	33.44	C
ATOM	154	CG1	VAL	A1066	11.819	22.214	1.276	35.84	C
ATOM	155	CG2	VAL	A1066	10.853	24.515	1.308	31.99	C
ATOM	156	C	VAL	A1066	11.255	24.559	−1.73	34.18	C
ATOM	157	O	VAL	A1066	10.05	24.555	−1.852	34.26	O
ATOM	158	N	GLN	A1067	12.006	25.457	−2.355	34.69	N
ATOM	159	CA	GLN	A1067	11.311	26.561	−3.041	35.45	C
ATOM	160	CB	GLN	A1067	12.234	27.745	−3.342	35.7	C
ATOM	161	CG	GLN	A1067	13.58	27.38	−4.01	39.46	C
ATOM	162	CD	GLN	A1067	13.902	28.27	−5.218	41.67	C
ATOM	163	OE1	GLN	A1067	15.065	28.643	−5.421	40.43	O
ATOM	164	NE2	GLN	A1067	12.864	28.609	−6.03	41.3	N
ATOM	165	C	GLN	A1067	10.592	26.046	−4.298	34.39	C
ATOM	166	O	GLN	A1067	9.513	26.551	−4.704	33.28	O
ATOM	167	N	HIS	A1068	11.184	24.999	−4.874	33.52	N
ATOM	168	CA	HIS	A1068	10.604	24.326	−6.044	32.41	C
ATOM	169	CB	HIS	A1068	11.598	23.345	−6.731	31.19	C
ATOM	170	CG	HIS	A1068	11.982	22.16	−5.912	30.41	C
ATOM	171	CD2	HIS	A1068	11.716	20.828	−6.08	32.9	C
ATOM	172	ND1	HIS	A1068	12.762	22.256	−4.775	30.19	N
ATOM	173	CE1	HIS	A1068	12.951	21.041	−4.273	27.55	C
ATOM	174	NE2	HIS	A1068	12.318	20.159	−5.038	30.41	N
ATOM	175	C	HIS	A1068	9.28	23.677	−5.688	31.32	C
ATOM	176	O	HIS	A1068	8.382	23.674	−6.484	33.73	O
ATOM	177	N	VAL	A1069	9.13	23.197	−4.467	30.56	N
ATOM	178	CA	VAL	A1069	7.856	22.582	−3.983	29.15	C
ATOM	179	CB	VAL	A1069	8.163	21.81	−2.733	29.55	C
ATOM	180	CG1	VAL	A1069	7.234	20.651	−2.639	31.08	C
ATOM	181	CG2	VAL	A1069	9.625	21.383	−2.751	30.94	C
ATOM	182	C	VAL	A1069	6.711	23.542	−3.57	26.86	C
ATOM	183	O	VAL	A1069	5.518	23.206	−3.653	25.45	O
ATOM	184	N	VAL	A1070	7.105	24.72	−3.111	24.89	N
ATOM	185	CA	VAL	A1070	6.187	25.716	−2.632	25.08	C
ATOM	186	CB	VAL	A1070	6.875	26.794	−1.768	24.76	C
ATOM	187	CG1	VAL	A1070	5.823	27.937	−1.397	27.38	C
ATOM	188	CG2	VAL	A1070	7.398	26.161	−0.518	22.87	C
ATOM	189	C	VAL	A1070	5.335	26.363	−3.725	24.92	C
ATOM	190	O	VAL	A1070	5.866	26.883	−4.671	25.57	O
ATOM	191	N	ILE	A1071	4.017	26.331	−3.539	24.9	N
ATOM	192	CA	ILE	A1071	3.066	26.947	−4.426	25.41	C
ATOM	193	CB	ILE	A1071	1.841	25.984	−4.658	26.26	C
ATOM	194	CG2	ILE	A1071	0.936	26.512	−5.742	25.59	C
ATOM	195	CG1	ILE	A1071	2.322	24.56	−5.002	27.15	C
ATOM	196	CD1	ILE	A1071	1.219	23.495	−5.119	24.77	C
ATOM	197	C	ILE	A1071	2.552	28.291	−3.916	25.98	C
ATOM	198	O	ILE	A1071	2.139	28.459	−2.744	25.3	O
ATOM	199	N	GLY	A1072	2.475	29.24	−4.825	26.18	N
ATOM	200	CA	GLY	A1072	1.98	30.52	−4.46	26.79	C
ATOM	201	C	GLY	A1072	0.488	30.535	−4.409	27.83	C
ATOM	202	O	GLY	A1072	−0.147	29.872	−5.205	26.82	O
ATOM	203	N	PRO	A1073	−0.085	31.374	−3.509	29.78	N
ATOM	204	CD	PRO	A1073	0.556	32.418	−2.675	30.6	C
ATOM	205	CA	PRO	A1073	−1.515	31.335	−3.283	30.69	C
ATOM	206	CB	PRO	A1073	−1.744	32.379	−2.15	31.44	C
ATOM	207	CG	PRO	A1073	−0.627	33.301	−2.24	30.55	C
ATOM	208	C	PRO	A1073	−2.233	31.821	−4.49	31.3	C
ATOM	209	O	PRO	A1073	−3.436	31.784	−4.49	33.38	O
ATOM	210	N	SER	A1074	−1.532	32.348	−5.49	30.64	N
ATOM	211	CA	SER	A1074	−2.259	32.82	−6.665	29	C
ATOM	212	CB	SER	A1074	−1.796	34.218	−7.058	28.51	C
ATOM	213	OG	SER	A1074	−2.372	35.183	−6.185	26.91	O
ATOM	214	C	SER	A1074	−2.124	31.81	−7.79	28.72	C
ATOM	215	O	SER	A1074	−2.763	31.956	−8.833	28.82	O
ATOM	216	N	SER	A1075	−1.311	30.771	−7.522	27.32	N
ATOM	217	CA	SER	A1075	−1.055	29.665	−8.421	25.33	C
ATOM	218	CB	SER	A1075	0.381	29.215	−8.266	25.63	C
ATOM	219	OG	SER	A1075	1.239	30.134	−8.912	26.14	O
ATOM	220	C	SER	A1075	−1.978	28.476	−8.173	25.13	C
ATOM	221	O	SER	A1075	−1.868	27.453	−8.857	25.41	O
ATOM	222	N	LEU	A1076	−2.879	28.615	−7.2	23.73	N
ATOM	223	CA	LEU	A1076	−3.72	27.546	−6.762	21.91	C
ATOM	224	CB	LEU	A1076	−3.187	26.898	−5.467	20.79	C
ATOM	225	CG	LEU	A1076	−4.03	25.669	−5.036	20.11	C
ATOM	226	CD1	LEU	A1076	−3.951	24.503	−6.038	15.91	C
ATOM	227	CD2	LEU	A1076	−3.717	25.152	−3.646	19.98	C
ATOM	228	C	LEU	A1076	−5.131	28.047	−6.533	22.97	C
ATOM	229	O	LEU	A1076	−5.408	28.796	−5.548	24.03	O
ATOM	230	N	ILE	A1077	−6.029	27.628	−7.42	22.57	N
ATOM	231	CA	ILE	A1077	−7.439	27.868	−7.216	23.08	C
ATOM	232	CB	ILE	A1077	−8.261	27.904	−8.53	24.06	C
ATOM	233	CG2	ILE	A1077	−9.65	28.526	−8.221	20.11	C
ATOM	234	CG1	ILE	A1077	−7.464	28.606	−9.652	22.13	C
ATOM	235	CD1	ILE	A1077	−7.14	30.062	−9.29	25.62	C
ATOM	236	C	ILE	A1077	−8.061	26.798	−6.385	23.17	C
ATOM	237	O	ILE	A1077	−7.874	25.639	−6.679	24.09	O
ATOM	238	N	VAL	A1078	−8.804	27.195	−5.351	23.26	N
ATOM	239	CA	VAL	A1078	−9.607	26.28	−4.572	23.02	C
ATOM	240	CB	VAL	A1078	−8.916	25.876	−3.223	22.97	C
ATOM	241	CG1	VAL	A1078	−9.859	25.009	−2.365	22.11	C
ATOM	242	CG2	VAL	A1078	−7.658	25.173	−3.466	23.96	C
ATOM	243	C	VAL	A1078	−10.893	26.989	−4.227	23.24	C
ATOM	244	O	VAL	A1078	−10.877	27.922	−3.464	23.89	O
ATOM	245	N	HIS	A1079	−12.003	26.51	−4.758	24.26	N
ATOM	246	CA	HIS	A1079	−13.337	26.941	−4.381	24.97	C
ATOM	247	CB	HIS	A1079	−14.21	26.807	−5.596	24.57	C
ATOM	248	CG	HIS	A1079	−13.671	27.5	−6.804	24.97	C
ATOM	249	CD2	HIS	A1079	−13.2	27.014	−7.974	26.02	C
ATOM	250	ND1	HIS	A1079	−13.61	28.875	−6.909	24.64	N
ATOM	251	CE1	HIS	A1079	−13.12	29.202	−8.093	25.68	C
ATOM	252	NE2	HIS	A1079	−12.871	28.09	−8.763	25.4	N
ATOM	253	C	HIS	A1079	−13.875	26.039	−3.251	27.07	C
ATOM	254	O	HIS	A1079	−13.889	24.8	−3.387	26.98	O
ATOM	255	N	PHE	A1080	−14.317	26.624	−2.137	28.58	N
ATOM	256	CA	PHE	A1080	−14.61	25.778	−0.968	31.3	C
ATOM	257	CB	PHE	A1080	−14.449	26.52	0.389	33.68	C
ATOM	258	CG	PHE	A1080	−13.052	26.915	0.647	35.21	C
ATOM	259	CD1	PHE	A1080	−12.68	28.264	0.595	40.09	C
ATOM	260	CD2	PHE	A1080	−12.079	25.927	0.826	32.59	C
ATOM	261	CE1	PHE	A1080	−11.294	28.615	0.751	42.72	C
ATOM	262	CE2	PHE	A1080	−10.769	26.232	1	35.14	C
ATOM	263	CZ	PHE	A1080	−10.341	27.577	0.966	40.38	C
ATOM	264	C	PHE	A1080	−15.91	25.034	−0.977	30.93	C
ATOM	265	O	PHE	A1080	−16.144	24.233	−0.073	31.9	O
ATOM	266	N	ASN	A1081	−16.749	25.261	−1.98	29.99	N
ATOM	267	CA	ASN	A1081	−17.951	24.477	−2.052	28.6	C
ATOM	268	CB	ASN	A1081	−19.041	25.218	−2.808	29.48	C
ATOM	269	CG	ASN	A1081	−18.671	25.483	−4.236	31.25	C
ATOM	270	OD1	ASN	A1081	−17.865	26.382	−4.541	29.24	O
ATOM	271	ND2	ASN	A1081	−19.204	24.643	−5.131	31.12	N
ATOM	272	C	ASN	A1081	−17.608	23.185	−2.732	27.52	C
ATOM	273	O	ASN	A1081	−18.403	22.229	−2.665	29.53	O
ATOM	274	N	GLU	A1082	−16.414	23.124	−3.333	24.89	N
ATOM	275	CA	GLU	A1082	−16.04	22.01	−4.213	22.44	C
ATOM	276	CB	GLU	A1082	−15.32	22.481	−5.481	22.29	C
ATOM	277	CG	GLU	A1082	−16.068	23.386	−6.341	22.97	C
ATOM	278	CD	GLU	A1082	−15.26	23.767	−7.575	27.8	C
ATOM	279	OE1	GLU	A1082	−15.742	24.562	−8.432	28.49	O
ATOM	280	OE2	GLU	A1082	−14.136	23.253	−7.713	29.66	O
ATOM	281	C	GLU	A1082	−15.21	20.951	−3.497	20.44	C
ATOM	282	O	GLU	A1082	−14.018	21.015	−3.435	20.29	O
ATOM	283	N	VAL	A1083	−15.888	19.932	−3.019	19.69	N
ATOM	284	CA	VAL	A1083	−15.309	18.879	−2.201	16.58	C
ATOM	285	CB	VAL	A1083	−16.098	18.697	−0.886	15.58	C
ATOM	286	CG1	VAL	A1083	−15.45	17.604	−0.042	12.74	C
ATOM	287	CG2	VAL	A1083	−16.132	20.05	−0.121	12.18	C
ATOM	288	C	VAL	A1083	−15.236	17.566	−2.955	16.73	C
ATOM	289	O	VAL	A1083	−16.201	17.105	−3.555	16.56	O
ATOM	290	N	ILE	A1084	−14.054	16.977	−2.913	16.19	N
ATOM	291	CA	ILE	A1084	−13.822	15.663	−3.494	15.78	C
ATOM	292	CB	ILE	A1084	−12.32	15.465	−3.831	14.2	C
ATOM	293	CG2	ILE	A1084	−12.057	14.095	−4.192	12.01	C
ATOM	294	CG1	ILE	A1084	−11.939	16.363	−5.007	14.72	C
ATOM	295	CD1	ILE	A1084	−10.462	16.58	−5.098	12.82	C
ATOM	296	C	ILE	A1084	−14.343	14.608	−2.533	15.45	C
ATOM	297	O	ILE	A1084	−15.065	13.716	−2.937	15.82	O
ATOM	298	N	GLY	A1085	−13.969	14.733	−1.273	14.58	N
ATOM	299	CA	GLY	A1085	−14.324	13.76	−0.272	15.49	C
ATOM	300	C	GLY	A1085	−14.158	14.328	1.144	16.4	C
ATOM	301	O	GLY	A1085	−13.28	15.137	1.41	14.09	O
ATOM	302	N	ARG	A1086	−15.036	13.887	2.039	18.79	N
ATOM	303	CA	ARG	A1086	−14.945	14.135	3.466	20.86	C
ATOM	304	CB	ARG	A1086	−16.251	14.676	3.989	21.21	C
ATOM	305	CG	ARG	A1086	−16.373	16.172	3.885	23.45	C
ATOM	306	CD	ARG	A1086	−17.9	16.646	3.969	26.42	C
ATOM	307	NE	ARG	A1086	−18.001	18.021	3.466	27.6	N
ATOM	308	CZ	ARG	A1086	−17.48	19.093	4.091	32.33	C
ATOM	309	NH1	ARG	A1086	−16.816	18.961	5.242	35.28	N
ATOM	310	NH2	ARG	A1086	−17.595	20.32	3.569	32.16	N
ATOM	311	C	ARG	A1086	−14.682	12.807	4.096	20.17	C
ATOM	312	O	ARG	A1086	−14.958	11.754	3.495	20.3	O
ATOM	313	N	GLY	A1087	−14.079	12.823	5.28	20.64	N
ATOM	314	CA	GLY	A1087	−13.973	11.578	6.063	20.22	C
ATOM	315	C	GLY	A1087	−13.277	11.809	7.358	19.8	C
ATOM	316	O	GLY	A1087	−13.267	12.898	7.864	20.95	O
ATOM	317	N	HIS	A1088	−12.638	10.785	7.88	19.64	N
ATOM	318	CA	HIS	A1088	−11.928	10.907	9.153	18.07	C
ATOM	319	CB	HIS	A1088	−11.39	9.532	9.544	18.11	C
ATOM	320	CG	HIS	A1088	−12.414	8.645	10.11	18.13	C
ATOM	321	CD2	HIS	A1088	−12.848	7.416	9.726	19.99	C
ATOM	322	ND1	HIS	A1088	−13.147	8.999	11.226	19.52	N
ATOM	323	CE1	HIS	A1088	−13.989	8.018	11.518	20.66	C
ATOM	324	NE2	HIS	A1088	−13.831	7.051	10.622	21.93	N
ATOM	325	C	HIS	A1088	−10.732	11.749	8.888	16.52	C
ATOM	326	O	HIS	A1088	−10.263	12.502	9.743	16.94	O
ATOM	327	N	PHE	A1089	−10.193	11.522	7.698	14.83	N
ATOM	328	CA	PHE	A1089	−9.003	12.234	7.244	13.7	C
ATOM	329	CB	PHE	A1089	−8.494	11.675	5.925	11.64	C
ATOM	330	CG	PHE	A1089	−9.525	11.593	4.91	10.95	C
ATOM	331	CD1	PHE	A1089	−9.965	12.794	4.219	13.52	C
ATOM	332	CD2	PHE	A1089	−10.09	10.376	4.612	8.32	C
ATOM	333	CE1	PHE	A1089	−10.956	12.734	3.249	10.64	C
ATOM	334	CE2	PHE	A1089	−11.079	10.261	3.648	10.05	C
ATOM	335	CZ	PHE	A1089	−11.543	11.452	2.966	15.19	C
ATOM	336	C	PHE	A1089	−9.287	13.746	7.164	12.68	C
ATOM	337	O	PHE	A1089	−8.348	14.505	7.187	11.45	O
ATOM	338	N	GLY	A1090	−10.577	14.126	7.178	11.98	N
ATOM	339	CA	GLY	A1090	−11.019	15.513	7.028	13.34	C
ATOM	340	C	GLY	A1090	−11.674	15.859	5.68	14	C
ATOM	341	O	GLY	A1090	−12.487	15.12	5.127	14.32	O
ATOM	342	N	CYS	A1091	−11.346	17.001	5.142	14.77	N
ATOM	343	CA	CYS	A1091	−12.027	17.454	3.959	14.05	C
ATOM	344	CB	CYS	A1091	−12.905	18.65	4.304	14.11	C
ATOM	345	SG	CYS	A1091	−13.959	19.211	2.883	19.49	S
ATOM	346	C	CYS	A1091	−11.019	17.769	2.824	13.5	C
ATOM	347	O	CYS	A1091	−10.098	18.585	2.975	11.93	O
ATOM	348	N	VAL	A1092	−11.215	17.09	1.711	12.32	N
ATOM	349	CA	VAL	A1092	−10.36	17.217	0.573	12.75	C
ATOM	350	CB	VAL	A1092	−9.928	15.823	0.058	12.83	C
ATOM	351	CG1	VAL	A1092	−9.089	15.986	−1.186	13.1	C
ATOM	352	CG2	VAL	A1092	−9.154	15.079	1.144	10.11	C
ATOM	353	C	VAL	A1092	−11.092	17.993	−0.543	13.41	C
ATOM	354	O	VAL	A1092	−12.196	17.644	−0.947	11.1	O
ATOM	355	N	TYR	A1093	−10.405	19.012	−1.084	14.21	N
ATOM	356	CA	TYR	A1093	−10.987	19.843	−2.087	13.01	C
ATOM	357	CB	TYR	A1093	−10.838	21.298	−1.671	15.58	C
ATOM	358	CG	TYR	A1093	−11.421	21.639	−0.338	16.74	C
ATOM	359	CD1	TYR	A1093	−10.62	21.582	0.8	20.27	C
ATOM	360	CE1	TYR	A1093	−11.131	21.931	2.072	24.42	C
ATOM	361	CD2	TYR	A1093	−12.767	22.025	−0.212	15.71	C
ATOM	362	CE2	TYR	A1093	−13.326	22.363	1.026	19.23	C
ATOM	363	CZ	TYR	A1093	−12.491	22.327	2.2	24.72	C
ATOM	364	OH	TYR	A1093	−12.946	22.676	3.505	25.2	O
ATOM	365	C	TYR	A1093	−10.429	19.689	−3.461	13.15	C
ATOM	366	O	TYR	A1093	−9.223	19.373	−3.67	10.61	O
ATOM	367	N	HIS	A1094	−11.288	20.032	−4.413	13.11	N
ATOM	368	CA	HIS	A1094	−10.809	20.226	−5.759	14.03	C
ATOM	369	CB	HIS	A1094	−11.964	20.459	−6.695	13.93	C
ATOM	370	CG	HIS	A1094	−12.696	19.219	−7.059	13.98	C
ATOM	371	CD2	HIS	A1094	−13.885	18.736	−6.647	15.38	C
ATOM	372	ND1	HIS	A1094	−12.217	18.329	−7.988	16.1	N
ATOM	373	CE1	HIS	A1094	−13.102	17.372	−8.161	19.29	C
ATOM	374	NE2	HIS	A1094	−14.106	17.58	−7.337	18.15	N
ATOM	375	C	HIS	A1094	−9.891	21.425	−5.84	14.5	C
ATOM	376	O	HIS	A1094	−10.192	22.432	−5.262	14.97	O
ATOM	377	N	GLY	A1095	−8.78	21.306	−6.553	15.67	N
ATOM	378	CA	GLY	A1095	−7.939	22.453	−6.806	17.79	C
ATOM	379	C	GLY	A1095	−7.533	22.565	−8.27	18.77	C
ATOM	380	O	GLY	A1095	−7.707	21.662	−9.049	17.49	O
ATOM	381	N	THR	A1096	−7.015	23.715	−8.636	21.94	N
ATOM	382	CA	THR	A1096	−6.45	23.941	−9.964	24.75	C
ATOM	383	CB	THR	A1096	−7.362	24.783	−10.89	24.55	C
ATOM	384	OG1	THR	A1096	−8.54	24.038	−11.201	25.91	O
ATOM	385	CG2	THR	A1096	−6.679	25.036	−12.2	24.08	C
ATOM	386	C	THR	A1096	−5.135	24.63	−9.743	26.07	C
ATOM	387	O	THR	A1096	−5.071	25.709	−9.187	26.93	O
ATOM	388	N	LEU	A1097	−4.081	23.94	−10.117	28.65	N
ATOM	389	CA	LEU	A1097	−2.772	24.458	−10.032	31.8	C
ATOM	390	CB	LEU	A1097	−1.85	23.345	−9.609	30.83	C
ATOM	391	CG	LEU	A1097	−0.375	23.607	−9.399	32.94	C
ATOM	392	CD1	LEU	A1097	−0.234	24.57	−8.252	32.31	C
ATOM	393	CD2	LEU	A1097	0.493	22.298	−9.219	30.24	C
ATOM	394	C	LEU	A1097	−2.449	25.09	−11.421	35.83	C
ATOM	395	O	LEU	A1097	−2.405	24.415	−12.477	35.53	O
ATOM	396	N	LEU	A1098	−2.31	26.421	−11.415	39.47	N
ATOM	397	CA	LEU	A1098	−1.987	27.14	−12.619	43.37	C
ATOM	398	CB	LEU	A1098	−2.541	28.54	−12.571	41.93	C
ATOM	399	CG	LEU	A1098	−3.928	28.572	−11.927	43.36	C
ATOM	400	CD1	LEU	A1098	−4.141	29.836	−11.071	41.52	C
ATOM	401	CD2	LEU	A1098	−5.056	28.35	−12.955	42.76	C
ATOM	402	C	LEU	A1098	−0.512	27.166	−12.525	47.12	C
ATOM	403	O	LEU	A1098	0.04	27.78	−11.624	48.42	O
ATOM	404	N	ASP	A1099	0.157	26.422	−13.379	51.62	N
ATOM	405	CA	ASP	A1099	1.604	26.58	−13.384	56.85	C
ATOM	406	CB	ASP	A1099	2.383	25.931	−12.186	57.68	C
ATOM	407	CG	ASP	A1099	2.043	24.437	−11.941	63.37	C
ATOM	408	OD1	ASP	A1099	0.976	23.902	−12.415	70.78	O
ATOM	409	OD2	ASP	A1099	2.863	23.795	−11.226	65.81	O
ATOM	410	C	ASP	A1099	2.297	26.411	−14.726	58.47	C
ATOM	411	O	ASP	A1099	2.446	25.303	−15.282	59.18	O
ATOM	412	N	ASN	A1100	2.591	27.597	−15.241	60.14	N
ATOM	413	CA	ASN	A1100	3.733	27.913	−16.05	61.85	C
ATOM	414	CB	ASN	A1100	5.058	27.881	−15.346	62.48	C
ATOM	415	CG	ASN	A1100	5.207	29.074	−14.421	64.67	C
ATOM	416	OD1	ASN	A1100	4.493	30.084	−14.6	66.33	O
ATOM	417	ND2	ASN	A1100	6.098	28.973	−13.414	65.49	N
ATOM	418	C	ASN	A1100	3.704	28.415	−17.45	61.64	C
ATOM	419	O	ASN	A1100	3.76	27.649	−18.43	61.43	O
ATOM	420	N	ASP	A1101	3.616	29.729	−17.532	61.13	N
ATOM	421	CA	ASP	A1101	2.785	30.288	−18.571	61.44	C
ATOM	422	CB	ASP	A1101	3.612	30.958	−19.687	62.05	C
ATOM	423	CG	ASP	A1101	2.907	32.203	−20.251	63.68	C
ATOM	424	OD1	ASP	A1101	2.526	32.22	−21.452	62.73	O
ATOM	425	OD2	ASP	A1101	2.702	33.157	−19.455	66.21	O
ATOM	426	C	ASP	A1101	1.805	29.22	−19.135	60.4	C
ATOM	427	O	ASP	A1101	2.226	28.267	−19.83	60.81	O
ATOM	428	N	GLY	A1102	0.516	29.356	−18.804	58.95	N
ATOM	429	CA	GLY	A1102	−0.534	28.677	−19.573	56.58	C
ATOM	430	C	GLY	A1102	−1.253	27.537	−18.885	54.7	C
ATOM	431	O	GLY	A1102	−2.465	27.587	−18.683	53.95	O
ATOM	432	N	LYS	A1103	−0.534	26.476	−18.542	53.24	N
ATOM	433	CA	LYS	A1103	−1.278	25.235	−18.237	51.22	C
ATOM	434	CB	LYS	A1103	−0.65	23.93	−18.814	51.58	C
ATOM	435	CG	LYS	A1103	0.762	23.585	−18.409	54.34	C
ATOM	436	CD	LYS	A1103	1.789	24.509	−19.112	57.47	C
ATOM	437	CE	LYS	A1103	2.423	25.478	−18.11	55.46	C
ATOM	438	NZ	LYS	A1103	3.733	24.994	−17.598	53.32	N
ATOM	439	C	LYS	A1103	−1.924	25.068	−16.843	48.72	C
ATOM	440	O	LYS	A1103	−1.492	25.647	−15.82	48.06	O
ATOM	441	N	LYS	A1104	−3.032	24.329	−16.899	45.99	N
ATOM	442	CA	LYS	A1104	−3.879	24.011	−15.771	43.3	C
ATOM	443	CB	LYS	A1104	−5.317	24.45	−16.004	42.65	C
ATOM	444	CG	LYS	A1104	−5.508	25.939	−15.923	41.8	C
ATOM	445	CD	LYS	A1104	−6.917	26.243	−16.354	40.69	C
ATOM	446	CE	LYS	A1104	−6.952	27.394	−17.336	40.81	C
ATOM	447	NZ	LYS	A1104	−8.305	28.012	−17.239	41.64	N
ATOM	448	C	LYS	A1104	−3.825	22.516	−15.436	41.44	C
ATOM	449	O	LYS	A1104	−3.898	21.605	−16.313	40.97	O
ATOM	450	N	ILE	A1105	−3.657	22.291	−14.142	37.97	N
ATOM	451	CA	ILE	A1105	−3.705	20.976	−13.612	34.91	C
ATOM	452	CB	ILE	A1105	−2.301	20.361	−13.454	35.61	C
ATOM	453	CG2	ILE	A1105	−1.135	21.401	−13.762	37.19	C
ATOM	454	CG1	ILE	A1105	−2.155	19.599	−12.139	36.65	C
ATOM	455	CD1	ILE	A1105	−0.883	18.749	−12.072	36.89	C
ATOM	456	C	ILE	A1105	−4.701	20.852	−12.444	31.98	C
ATOM	457	O	ILE	A1105	−4.608	21.565	−11.427	27.87	O
ATOM	458	N	HIS	A1106	−5.686	19.967	−12.693	28.84	N
ATOM	459	CA	HIS	A1106	−6.645	19.518	−11.728	26.8	C
ATOM	460	CB	HIS	A1106	−7.622	18.551	−12.383	28.08	C
ATOM	461	CG	HIS	A1106	−8.818	18.218	−11.543	30.25	C
ATOM	462	CD2	HIS	A1106	−9.146	18.556	−10.269	31.62	C
ATOM	463	ND1	HIS	A1106	−9.881	17.478	−12.03	33.44	N
ATOM	464	CE1	HIS	A1106	−10.804	17.357	−11.087	33.23	C
ATOM	465	NE2	HIS	A1106	−10.375	17.991	−10.003	35.32	N
ATOM	466	C	HIS	A1106	−5.886	18.793	−10.631	24.68	C
ATOM	467	O	HIS	A1106	−4.955	18.018	−10.904	25.45	O
ATOM	468	N	CYS	A1107	−6.243	19.048	−9.386	21.07	N
ATOM	469	CA	CYS	A1107	−5.523	18.458	−8.31	19.54	C
ATOM	470	CB	CYS	A1107	−4.265	19.297	−8	20.32	C
ATOM	471	SG	CYS	A1107	−4.67	21.059	−7.642	21.01	S
ATOM	472	C	CYS	A1107	−6.454	18.368	−7.115	18.93	C
ATOM	473	O	CYS	A1107	−7.648	18.819	−7.131	17.53	O
ATOM	474	N	ALA	A1108	−5.915	17.78	−6.063	17.24	N
ATOM	475	CA	ALA	A1108	−6.65	17.696	−4.829	15.77	C
ATOM	476	CB	ALA	A1108	−6.865	16.206	−4.395	15.49	C
ATOM	477	C	ALA	A1108	−5.856	18.437	−3.791	14.69	C
ATOM	478	O	ALA	A1108	−4.645	18.317	−3.75	14.65	O
ATOM	479	N	VAL	A1109	−6.559	19.158	−2.927	13.84	N
ATOM	480	CA	VAL	A1109	−5.932	20.008	−1.939	12.57	C
ATOM	481	CB	VAL	A1109	−6.094	21.513	−2.247	12.13	C
ATOM	482	CG1	VAL	A1109	−5.136	22.321	−1.227	11.45	C
ATOM	483	CG2	VAL	A1109	−5.762	21.768	−3.729	8.23	C
ATOM	484	C	VAL	A1109	−6.49	19.734	−0.554	12.99	C
ATOM	485	O	VAL	A1109	−7.719	19.469	−0.365	12.53	O
ATOM	486	N	LYS	A1110	−5.587	19.781	0.41	12.17	N
ATOM	487	CA	LYS	A1110	−5.977	19.552	1.81	14.24	C
ATOM	488	CB	LYS	A1110	−5.985	18.063	2.167	13.99	C
ATOM	489	CG	LYS	A1110	−6.46	17.861	3.594	21.03	C
ATOM	490	CD	LYS	A1110	−6.867	16.451	3.838	23.19	C
ATOM	491	CE	LYS	A1110	−7.619	16.316	5.141	25.85	C
ATOM	492	NZ	LYS	A1110	−7.133	17.189	6.257	25.05	N
ATOM	493	C	LYS	A1110	−5.123	20.326	2.802	13.07	C
ATOM	494	O	LYS	A1110	−3.911	20.547	2.592	11.93	O
ATOM	495	N	SER	A1111	−5.803	20.812	3.831	13.22	N
ATOM	496	CA	SER	A1111	−5.157	21.588	4.925	13.91	C
ATOM	497	CB	SER	A1111	−6.208	22.486	5.632	13.19	C
ATOM	498	OG	SER	A1111	−5.588	23.295	6.645	16.46	O
ATOM	499	C	SER	A1111	−4.531	20.633	5.894	12.91	C
ATOM	500	O	SER	A1111	−5.173	19.691	6.345	13.35	O
ATOM	501	N	LEU	A1112	−3.251	20.769	6.16	13.27	N
ATOM	502	CA	LEU	A1112	−2.67	19.886	7.215	12.16	C
ATOM	503	CB	LEU	A1112	−1.183	19.77	6.984	12.71	C
ATOM	504	CG	LEU	A1112	−0.892	19.329	5.545	13.33	C
ATOM	505	CD1	LEU	A1112	0.556	19.371	5.272	10.72	C
ATOM	506	CD2	LEU	A1112	−1.401	17.897	5.255	16.22	C
ATOM	507	C	LEU	A1112	−2.964	20.401	8.632	12.03	C
ATOM	508	O	LEU	A1112	−2.145	21.009	9.264	11.5	O
ATOM	509	N	ASN	A1113	−4.201	20.228	9.091	13.41	N
ATOM	510	CA	ASN	A1113	−4.652	20.809	10.366	12.87	C
ATOM	511	CB	ASN	A1113	−6.092	20.435	10.644	13.74	C
ATOM	512	CG	ASN	A1113	−6.994	20.782	9.52	11.65	C
ATOM	513	OD1	ASN	A1113	−6.819	21.773	8.853	17.02	O
ATOM	514	ND2	ASN	A1113	−7.919	19.946	9.271	13.53	N
ATOM	515	C	ASN	A1113	−3.822	20.364	11.556	12.79	C
ATOM	516	O	ASN	A1113	−3.905	20.982	12.625	11.81	O
ATOM	517	N	ARG	A1114	−2.993	19.335	11.362	11.67	N
ATOM	518	CA	ARG	A1114	−2.192	18.838	12.447	11.69	C
ATOM	519	CB	ARG	A1114	−1.872	17.402	12.26	12.4	C
ATOM	520	CG	ARG	A1114	−3.031	16.474	12.672	15.55	C
ATOM	521	CD	ARG	A1114	−2.856	15.116	12.074	19.31	C
ATOM	522	NE	ARG	A1114	−1.941	14.212	12.787	25.78	N
ATOM	523	CZ	ARG	A1114	−1.491	13.059	12.246	29.79	C
ATOM	524	NH1	ARG	A1114	−1.851	12.685	10.979	24.36	N
ATOM	525	NH2	ARG	A1114	−0.693	12.264	12.964	26.37	N
ATOM	526	C	ARG	A1114	−0.933	19.587	12.57	12.08	C
ATOM	527	O	ARG	A1114	−0.203	19.386	13.495	12.99	O
ATOM	528	N	ILE	A1115	−0.645	20.425	11.59	13.44	N
ATOM	529	CA	ILE	A1115	0.508	21.284	11.629	14.59	C
ATOM	530	CB	ILE	A1115	1.202	21.342	10.297	14.68	C
ATOM	531	CG2	ILE	A1115	2.221	22.495	10.326	12.88	C
ATOM	532	CG1	ILE	A1115	1.808	19.959	9.988	12.83	C
ATOM	533	CD1	ILE	A1115	2.105	19.742	8.559	15.91	C
ATOM	534	C	ILE	A1115	0.012	22.649	12.063	16.19	C
ATOM	535	O	ILE	A1115	−0.616	23.356	11.311	15.61	O
ATOM	536	N	THR	A1116	0.255	22.94	13.329	18.45	N
ATOM	537	CA	THR	A1116	−0.373	24.035	14.047	20.84	C
ATOM	538	CB	THR	A1116	−0.99	23.595	15.441	20	C
ATOM	539	OG1	THR	A1116	0.063	23.267	16.354	22.88	O
ATOM	540	CG2	THR	A1116	−1.914	22.399	15.325	19.02	C
ATOM	541	C	THR	A1116	0.647	25.161	14.281	22.42	C
ATOM	542	O	THR	A1116	0.262	26.269	14.657	24.01	O
ATOM	543	N	ASP	A1117	1.925	24.884	14.072	24.01	N
ATOM	544	CA	ASP	A1117	2.966	25.857	14.387	27.46	C
ATOM	545	CB	ASP	A1117	3.215	25.998	15.919	28.91	C
ATOM	546	CG	ASP	A1117	4.169	24.937	16.472	33.12	C
ATOM	547	OD1	ASP	A1117	5.406	25.172	16.513	42.43	O
ATOM	548	OD2	ASP	A1117	3.693	23.861	16.88	39.9	O
ATOM	549	C	ASP	A1117	4.283	25.595	13.691	27.09	C
ATOM	550	O	ASP	A1117	4.521	24.504	13.158	27.63	O
ATOM	551	N	ILE	A1118	5.154	26.598	13.782	27.49	N
ATOM	552	CA	ILE	A1118	6.42	26.628	13.014	28.72	C
ATOM	553	CB	ILE	A1118	7.229	27.969	13.169	28.25	C
ATOM	554	CG2	ILE	A1118	7.455	28.31	14.587	28.16	C
ATOM	555	CG1	ILE	A1118	8.569	27.892	12.419	29.89	C
ATOM	556	CD1	ILE	A1118	8.654	28.76	11.192	26.9	C
ATOM	557	C	ILE	A1118	7.296	25.38	13.127	28.67	C
ATOM	558	O	ILE	A1118	7.848	24.949	12.137	29.24	O
ATOM	559	N	GLY	A1119	7.361	24.755	14.293	28.57	N
ATOM	560	CA	GLY	A1119	8.258	23.631	14.422	28.01	C
ATOM	561	C	GLY	A1119	7.757	22.432	13.65	28.19	C
ATOM	562	O	GLY	A1119	8.574	21.626	13.154	28.46	O
ATOM	563	N	GLU	A1120	6.428	22.287	13.578	26.88	N
ATOM	564	CA	GLU	A1120	5.838	21.15	12.906	26.64	C
ATOM	565	CB	GLU	A1120	4.42	20.865	13.421	27.07	C
ATOM	566	CG	GLU	A1120	4.269	20.751	14.884	27.63	C
ATOM	567	CD	GLU	A1120	2.846	21.044	15.39	28.22	C
ATOM	568	OE1	GLU	A1120	2.099	21.807	14.783	28.44	O
ATOM	569	OE2	GLU	A1120	2.46	20.487	16.42	29.07	O
ATOM	570	C	GLU	A1120	5.81	21.407	11.383	26.7	C
ATOM	571	O	GLU	A1120	5.802	20.462	10.573	25.57	O
ATOM	572	N	VAL	A1121	5.748	22.693	11.022	27.37	N
ATOM	573	CA	VAL	A1121	5.922	23.13	9.647	27.71	C
ATOM	574	CB	VAL	A1121	5.683	24.628	9.497	27.27	C
ATOM	575	CG1	VAL	A1121	6.097	25.15	8.094	23.83	C
ATOM	576	CG2	VAL	A1121	4.232	24.897	9.771	27.4	C
ATOM	577	C	VAL	A1121	7.325	22.81	9.246	28.92	C
ATOM	578	O	VAL	A1121	7.574	22.155	8.242	29.26	O
ATOM	579	N	SER	A1122	8.239	23.273	10.055	29.93	N
ATOM	580	CA	SER	A1122	9.619	23.092	9.773	32.48	C
ATOM	581	CB	SER	A1122	10.424	23.719	10.877	32.29	C
ATOM	582	OG	SER	A1122	11.749	23.285	10.758	38.18	O
ATOM	583	C	SER	A1122	9.979	21.618	9.585	32.67	C
ATOM	584	O	SER	A1122	10.711	21.274	8.654	32.69	O
ATOM	585	N	GLN	A1123	9.433	20.778	10.459	33.88	N
ATOM	586	CA	GLN	A1123	9.694	19.352	10.488	35.82	C
ATOM	587	CB	GLN	A1123	9.422	18.731	11.856	36.63	C
ATOM	588	CG	GLN	A1123	10.061	17.303	11.912	43.42	C
ATOM	589	CD	GLN	A1123	9.12	16.204	12.492	51.27	C
ATOM	590	OE1	GLN	A1123	8.588	16.34	13.639	52.06	O
ATOM	591	NE2	GLN	A1123	8.934	15.093	11.713	49.85	N
ATOM	592	C	GLN	A1123	8.86	18.583	9.502	35.76	C
ATOM	593	O	GLN	A1123	9.02	17.389	9.395	36.26	O
ATOM	594	N	PHE	A1124	7.937	19.267	8.837	35.73	N
ATOM	595	CA	PHE	A1124	7.195	18.716	7.759	35.08	C
ATOM	596	CB	PHE	A1124	5.78	19.251	7.763	34.12	C
ATOM	597	CG	PHE	A1124	5.026	18.881	6.552	33.72	C
ATOM	598	CD1	PHE	A1124	4.905	17.538	6.189	33.01	C
ATOM	599	CD2	PHE	A1124	4.467	19.855	5.735	34.39	C
ATOM	600	CE1	PHE	A1124	4.217	17.146	5.019	35.69	C
ATOM	601	CE2	PHE	A1124	3.769	19.486	4.546	37.38	C
ATOM	602	CZ	PHE	A1124	3.623	18.098	4.198	33.44	C
ATOM	603	C	PHE	A1124	7.856	19.11	6.465	36.22	C
ATOM	604	O	PHE	A1124	7.758	18.418	5.471	36.62	O
ATOM	605	N	LEU	A1125	8.515	20.253	6.458	37.74	N
ATOM	606	CA	LEU	A1125	9.041	20.818	5.213	38.87	C
ATOM	607	CB	LEU	A1125	9.55	22.25	5.41	37.31	C
ATOM	608	CG	LEU	A1125	8.45	23.306	5.26	31.73	C
ATOM	609	CD1	LEU	A1125	9.085	24.585	5.245	27.34	C
ATOM	610	CD2	LEU	A1125	7.633	23.113	4.006	29.13	C
ATOM	611	C	LEU	A1125	10.118	19.936	4.675	41.71	C
ATOM	612	O	LEU	A1125	10.5	20.024	3.508	43.58	O
ATOM	613	N	THR	A1126	10.569	19.051	5.536	44.24	N
ATOM	614	CA	THR	A1126	11.528	18.045	5.199	47.41	C
ATOM	615	CB	THR	A1126	12.226	17.613	6.523	46.64	C
ATOM	616	OG1	THR	A1126	12.818	18.766	7.167	44.19	O
ATOM	617	CG2	THR	A1126	13.246	16.566	6.262	44.87	C
ATOM	618	C	THR	A1126	10.862	16.834	4.43	49.62	C
ATOM	619	O	THR	A1126	11.561	15.942	3.935	50.03	O
ATOM	620	N	GLU	A1127	9.516	16.791	4.341	52.19	N
ATOM	621	CA	GLU	A1127	8.783	15.674	3.645	52.2	C
ATOM	622	CB	GLU	A1127	7.449	15.293	4.324	52.31	C
ATOM	623	CG	GLU	A1127	7.501	15.199	5.841	53.81	C
ATOM	624	CD	GLU	A1127	8.832	14.692	6.389	55.9	C
ATOM	625	OE1	GLU	A1127	9.174	15.026	7.545	57.21	O
ATOM	626	OE2	GLU	A1127	9.547	13.971	5.665	57.62	O
ATOM	627	C	GLU	A1127	8.545	15.969	2.176	53.81	C
ATOM	628	O	GLU	A1127	8.112	15.1	1.439	55.01	O
ATOM	629	N	GLY	A1128	8.782	17.202	1.749	54.61	N
ATOM	630	CA	GLY	A1128	9.106	17.403	0.357	55.06	C
ATOM	631	C	GLY	A1128	10.488	16.749	0.176	55.64	C
ATOM	632	O	GLY	A1128	10.614	15.726	−0.532	55.14	O
ATOM	633	N	ILE	A1129	11.511	17.316	0.845	55.99	N
ATOM	634	CA	ILE	A1129	12.95	16.959	0.641	56.67	C
ATOM	635	CB	ILE	A1129	13.908	17.691	1.668	56.95	C
ATOM	636	CG2	ILE	A1129	13.492	19.182	1.83	55.72	C
ATOM	637	CG1	ILE	A1129	14.077	16.912	3.024	56.78	C
ATOM	638	CD1	ILE	A1129	15.422	16.113	3.3	53.37	C
ATOM	639	C	ILE	A1129	13.277	15.432	0.541	57.46	C
ATOM	640	O	ILE	A1129	14.386	15.035	0.094	58.01	O
ATOM	641	N	ILE	A1130	12.309	14.597	0.965	57.33	N
ATOM	642	CA	ILE	A1130	12.338	13.139	0.758	55.98	C
ATOM	643	CB	ILE	A1130	12.578	12.337	2.059	55.97	C
ATOM	644	CG2	ILE	A1130	13.335	11.008	1.723	56.77	C
ATOM	645	CG1	ILE	A1130	13.265	13.188	3.132	55.59	C
ATOM	646	CD1	ILE	A1130	13.016	12.698	4.536	57.13	C
ATOM	647	C	ILE	A1130	11.017	12.641	0.192	54.95	C
ATOM	648	O	ILE	A1130	10.363	11.849	0.881	54.45	O
ATOM	649	N	MET	A1131	10.628	13.064	−1.032	53.3	N
ATOM	650	CA	MET	A1131	9.326	12.664	−1.518	52.51	C
ATOM	651	CB	MET	A1131	8.386	12.568	−0.315	52.76	C
ATOM	652	CG	MET	A1131	6.879	12.691	−0.612	55.76	C
ATOM	653	SD	MET	A1131	5.963	12.687	0.939	55.65	S
ATOM	654	CE	MET	A1131	6.21	10.987	1.559	53.64	C
ATOM	655	C	MET	A1131	8.643	13.474	−2.611	51.28	C
ATOM	656	O	MET	A1131	8.018	12.882	−3.51	51.1	O
ATOM	657	N	LYS	A1132	8.644	14.809	−2.476	49.59	N
ATOM	658	CA	LYS	A1132	8.324	15.729	−3.595	47.3	C
ATOM	659	CB	LYS	A1132	8.789	17.164	−3.285	48.03	C
ATOM	660	CG	LYS	A1132	10.293	17.164	−2.812	50.92	C
ATOM	661	CD	LYS	A1132	11.15	18.336	−3.247	55.23	C
ATOM	662	CE	LYS	A1132	12.093	18.78	−2.115	59.29	C
ATOM	663	NZ	LYS	A1132	11.331	19.555	−1.032	62.84	N
ATOM	664	C	LYS	A1132	9.143	15.254	−4.799	44.44	C
ATOM	665	O	LYS	A1132	8.7	15.357	−5.954	44.56	O
ATOM	666	N	ASP	A1133	10.318	14.71	−4.467	40.34	N
ATOM	667	CA	ASP	A1133	11.375	14.342	−5.376	36.85	C
ATOM	668	CB	ASP	A1133	12.709	14.419	−4.644	38.1	C
ATOM	669	CG	ASP	A1133	13.169	15.86	−4.393	39.25	C
ATOM	670	OD1	ASP	A1133	12.747	16.789	−5.118	41.64	O
ATOM	671	OD2	ASP	A1133	13.953	16.054	−3.429	43.78	O
ATOM	672	C	ASP	A1133	11.207	12.94	−5.944	34.05	C
ATOM	673	O	ASP	A1133	11.739	12.66	−7.041	34.56	O
ATOM	674	N	PHE	A1134	10.49	12.067	−5.218	28.41	N
ATOM	675	CA	PHE	A1134	10.146	10.735	−5.744	24.7	C
ATOM	676	CB	PHE	A1134	9.28	9.939	−4.749	23.35	C
ATOM	677	CG	PHE	A1134	10.06	9.444	−3.583	22.72	C
ATOM	678	CD1	PHE	A1134	9.434	8.928	−2.485	22.8	C
ATOM	679	CD2	PHE	A1134	11.454	9.545	−3.574	22.21	C
ATOM	680	CE1	PHE	A1134	10.225	8.477	−1.407	26.8	C
ATOM	681	CE2	PHE	A1134	12.231	9.132	−2.522	23.45	C
ATOM	682	CZ	PHE	A1134	11.652	8.565	−1.446	22.5	C
ATOM	683	C	PHE	A1134	9.473	10.818	−7.109	22.06	C
ATOM	684	O	PHE	A1134	8.578	11.597	−7.275	21.7	O
ATOM	685	N	SER	A1135	9.928	10.048	−8.079	19.56	N
ATOM	686	CA	SER	A1135	9.24	10.001	−9.339	18.42	C
ATOM	687	CB	SER	A1135	10.033	10.836	−10.349	19.51	C
ATOM	688	OG	SER	A1135	9.252	11.189	−11.487	19.35	O
ATOM	689	C	SER	A1135	9.127	8.538	−9.816	17.14	C
ATOM	690	O	SER	A1135	10.052	7.971	−10.389	16.98	O
ATOM	691	N	HIS	A1136	8.002	7.906	−9.564	15.18	N
ATOM	692	CA	HIS	A1136	7.775	6.589	−10.15	12.41	C
ATOM	693	CB	HIS	A1136	8.12	5.487	−9.143	11.98	C
ATOM	694	CG	HIS	A1136	8.054	4.111	−9.726	12.38	C
ATOM	695	CD2	HIS	A1136	9.014	3.342	−10.296	12.91	C
ATOM	696	ND1	HIS	A1136	6.887	3.402	−9.823	10.71	N
ATOM	697	CE1	HIS	A1136	7.124	2.27	−10.449	14.23	C
ATOM	698	NE2	HIS	A1136	8.415	2.198	−10.725	8.48	N
ATOM	699	C	HIS	A1136	6.306	6.582	−10.556	11.29	C
ATOM	700	O	HIS	A1136	5.478	7.238	−9.9	10.24	O
ATOM	701	N	PRO	A1137	5.981	5.977	−11.708	10.16	N
ATOM	702	CD	PRO	A1137	6.95	5.593	−12.754	10.83	C
ATOM	703	CA	PRO	A1137	4.582	5.808	−12.11	9.53	C
ATOM	704	CB	PRO	A1137	4.65	5.004	−13.437	10.43	C
ATOM	705	CG	PRO	A1137	6.114	4.696	−13.672	11.57	C
ATOM	706	C	PRO	A1137	3.648	5.099	−11.124	9.5	C
ATOM	707	O	PRO	A1137	2.46	5.254	−11.205	11.49	O
ATOM	708	N	ASN	A1138	4.153	4.305	−10.205	9.85	N
ATOM	709	CA	ASN	A1138	3.317	3.68	−9.221	9.77	C
ATOM	710	CB	ASN	A1138	3.543	2.164	−9.193	9.54	C
ATOM	711	CG	ASN	A1138	3.25	1.539	−10.487	9.02	C
ATOM	712	OD1	ASN	A1138	4.175	0.982	−11.148	10.24	O
ATOM	713	ND2	ASN	A1138	1.987	1.653	−10.932	9.34	N
ATOM	714	C	ASN	A1138	3.502	4.246	−7.809	10.27	C
ATOM	715	O	ASN	A1138	3.104	3.638	−6.837	9.17	O
ATOM	716	N	VAL	A1139	4.045	5.448	−7.727	11.2	N
ATOM	717	CA	VAL	A1139	4.147	6.196	−6.473	11.12	C
ATOM	718	CB	VAL	A1139	5.614	6.467	−6.114	10.21	C
ATOM	719	CG1	VAL	A1139	5.682	7.242	−4.755	9.07	C
ATOM	720	CG2	VAL	A1139	6.356	5.132	−6.068	5.79	C
ATOM	721	C	VAL	A1139	3.411	7.492	−6.689	11.77	C
ATOM	722	O	VAL	A1139	3.647	8.158	−7.713	10.94	O
ATOM	723	N	LEU	A1140	2.522	7.823	−5.745	13.02	N
ATOM	724	CA	LEU	A1140	1.71	9.03	−5.83	15.05	C
ATOM	725	CB	LEU	A1140	0.503	8.927	−4.925	15.32	C
ATOM	726	CG	LEU	A1140	−0.733	9.865	−4.978	14.43	C
ATOM	727	CD1	LEU	A1140	−0.669	10.86	−3.921	17.59	C
ATOM	728	CD2	LEU	A1140	−0.925	10.507	−6.316	12.71	C
ATOM	729	C	LEU	A1140	2.641	10.14	−5.355	17.56	C
ATOM	730	O	LEU	A1140	3.161	10.068	−4.248	18.36	O
ATOM	731	N	SER	A1141	2.944	11.121	−6.193	18.73	N
ATOM	732	CA	SER	A1141	3.834	12.13	−5.697	21.1	C
ATOM	733	CB	SER	A1141	5.055	12.328	−6.649	24.1	C
ATOM	734	OG	SER	A1141	6.3	11.941	−6.014	26.54	O
ATOM	735	C	SER	A1141	3.144	13.464	−5.374	20.71	C
ATOM	736	O	SER	A1141	2.13	13.815	−5.93	19.98	O
ATOM	737	N	LEU	A1142	3.752	14.182	−4.45	20.91	N
ATOM	738	CA	LEU	A1142	3.323	15.505	−4.03	22.16	C
ATOM	739	CB	LEU	A1142	4.34	15.894	−2.937	23.71	C
ATOM	740	CG	LEU	A1142	4.041	16.699	−1.689	23.78	C
ATOM	741	CD1	LEU	A1142	3.912	18.061	−2.193	27.43	C
ATOM	742	CD2	LEU	A1142	2.719	16.18	−1.182	26.21	C
ATOM	743	C	LEU	A1142	3.373	16.496	−5.235	21.52	C
ATOM	744	O	LEU	A1142	4.395	16.47	−5.96	19.46	O
ATOM	745	N	LEU	A1143	2.31	17.314	−5.498	19.99	N
ATOM	746	CA	LEU	A1143	2.485	18.436	−6.495	19.13	C
ATOM	747	CB	LEU	A1143	1.204	18.79	−7.251	18.43	C
ATOM	748	CG	LEU	A1143	0.689	17.786	−8.297	18.69	C
ATOM	749	CD1	LEU	A1143	−0.597	18.167	−8.903	12.55	C
ATOM	750	CD2	LEU	A1143	1.731	17.452	−9.369	14.52	C
ATOM	751	C	LEU	A1143	3.082	19.719	−5.899	18.63	C
ATOM	752	O	LEU	A1143	3.836	20.444	−6.547	17.14	O
ATOM	753	N	GLY	A1144	2.692	20.033	−4.675	18.45	N
ATOM	754	CA	GLY	A1144	3.367	21.071	−3.916	18.59	C
ATOM	755	C	GLY	A1144	2.707	21.3	−2.586	19.82	C
ATOM	756	O	GLY	A1144	1.828	20.563	−2.135	19.78	O
ATOM	757	N	ILE	A1145	3.144	22.371	−1.964	22.33	N
ATOM	758	CA	ILE	A1145	2.663	22.855	−0.703	22.29	C
ATOM	759	CB	ILE	A1145	3.805	22.853	0.339	23.4	C
ATOM	760	CG2	ILE	A1145	3.223	22.796	1.739	22.81	C
ATOM	761	CG1	ILE	A1145	4.753	21.695	0.117	23.81	C
ATOM	762	CD1	ILE	A1145	4.176	20.356	0.659	27.04	C
ATOM	763	C	ILE	A1145	2.325	24.302	−0.914	22.87	C
ATOM	764	O	ILE	A1145	3.085	24.998	−1.56	22.95	O
ATOM	765	N	CYS	A1146	1.213	24.758	−0.345	24.26	N
ATOM	766	CA	CYS	A1146	1.049	26.164	−0.048	27.33	C
ATOM	767	CB	CYS	A1146	−0.335	26.706	−0.453	27.93	C
ATOM	768	SG	CYS	A1146	−0.799	25.936	−2.042	40.01	S
ATOM	769	C	CYS	A1146	1.314	26.435	1.413	26.36	C
ATOM	770	O	CYS	A1146	0.576	26.017	2.263	26.54	O
ATOM	771	N	LEU	A1147	2.381	27.169	1.681	26.97	N
ATOM	772	CA	LEU	A1147	2.702	27.677	3.028	26.84	C
ATOM	773	CB	LEU	A1147	4.215	27.96	3.13	25.24	C
ATOM	774	CG	LEU	A1147	5.124	26.744	3.04	23.65	C
ATOM	775	CD1	LEU	A1147	6.564	27.203	3.331	22.66	C
ATOM	776	CD2	LEU	A1147	4.686	25.628	4.009	22.26	C
ATOM	777	C	LEU	A1147	1.92	28.956	3.281	27.19	C
ATOM	778	O	LEU	A1147	2.092	29.949	2.592	27.3	O
ATOM	779	N	ARG	A1148	1.034	28.926	4.254	29.23	N
ATOM	780	CA	ARG	A1148	0.26	30.107	4.572	30.63	C
ATOM	781	CB	ARG	A1148	−1.216	29.77	4.627	29.46	C
ATOM	782	CG	ARG	A1148	−1.673	29.076	3.423	29.26	C
ATOM	783	CD	ARG	A1148	−3.153	29.009	3.391	24.3	C
ATOM	784	NE	ARG	A1148	−3.536	28.04	4.382	23.08	N
ATOM	785	CZ	ARG	A1148	−4.774	27.756	4.699	22.68	C
ATOM	786	NH1	ARG	A1148	−5.728	28.404	4.05	25.32	N
ATOM	787	NH2	ARG	A1148	−5.034	26.805	5.596	19.48	N
ATOM	788	C	ARG	A1148	0.772	30.687	5.885	32.3	C
ATOM	789	O	ARG	A1148	1.33	29.934	6.749	32.98	O
ATOM	790	N	SER	A1149	0.656	32.013	6.005	33.88	N
ATOM	791	CA	SER	A1149	0.938	32.721	7.301	35.81	C
ATOM	792	CB	SER	A1149	1.614	34.074	7.063	36.19	C
ATOM	793	OG	SER	A1149	3.02	34.017	7.166	40.64	O
ATOM	794	C	SER	A1149	−0.398	33.008	7.919	35.4	C
ATOM	795	O	SER	A1149	−0.839	34.149	7.871	38.1	O
ATOM	796	N	GLU	A1150	−1.06	31.972	8.401	33.94	N
ATOM	797	CA	GLU	A1150	−2.447	31.964	8.87	33.33	C
ATOM	798	CB	GLU	A1150	−3.232	33.244	8.587	33.3	C
ATOM	799	CG	GLU	A1150	−2.992	34.371	9.613	35.05	C
ATOM	800	CD	GLU	A1150	−3.965	35.531	9.472	36.72	C
ATOM	801	OE1	GLU	A1150	−3.696	36.603	10.093	41.98	O
ATOM	802	OE2	GLU	A1150	−5.026	35.391	8.789	41.29	O
ATOM	803	C	GLU	A1150	−3.119	30.737	8.235	30.98	C
ATOM	804	O	GLU	A1150	−3.349	30.674	7.024	29.7	O
ATOM	805	N	GLY	A1151	−3.385	29.744	9.066	28.12	N
ATOM	806	CA	GLY	A1151	−3.827	28.45	8.559	24.41	C
ATOM	807	C	GLY	A1151	−2.653	27.52	8.348	21.21	C
ATOM	808	O	GLY	A1151	−1.513	27.918	8.1	20.6	O
ATOM	809	N	SER	A1152	−2.965	26.243	8.455	19.89	N
ATOM	810	CA	SER	A1152	−2.038	25.175	8.252	16.36	C
ATOM	811	CB	SER	A1152	−2.709	23.894	8.687	16.61	C
ATOM	812	OG	SER	A1152	−2.738	23.798	10.107	17.18	O
ATOM	813	C	SER	A1152	−1.604	25.15	6.792	15.1	C
ATOM	814	O	SER	A1152	−2.313	25.628	5.915	16.63	O
ATOM	815	N	PRO	A1153	−0.426	24.621	6.515	13.76	N
ATOM	816	CD	PRO	A1153	0.58	24.139	7.483	13.56	C
ATOM	817	CA	PRO	A1153	−0.015	24.444	5.132	13.75	C
ATOM	818	CB	PRO	A1153	1.3	23.722	5.273	13.97	C
ATOM	819	CG	PRO	A1153	1.807	24.225	6.721	13.45	C
ATOM	820	C	PRO	A1153	−0.982	23.58	4.363	14.15	C
ATOM	821	O	PRO	A1153	−1.705	22.739	4.935	15.18	O
ATOM	822	N	LEU	A1154	−1.04	23.84	3.079	14.16	N
ATOM	823	CA	LEU	A1154	−1.901	23.118	2.192	15.42	C
ATOM	824	CB	LEU	A1154	−2.525	24.029	1.175	14.91	C
ATOM	825	CG	LEU	A1154	−3.898	24.572	1.467	19.4	C
ATOM	826	CD1	LEU	A1154	−4.454	24.434	2.886	17.68	C
ATOM	827	CD2	LEU	A1154	−3.97	25.964	0.981	16.05	C
ATOM	828	C	LEU	A1154	−0.996	22.156	1.485	14.7	C
ATOM	829	O	LEU	A1154	0.175	22.461	1.248	15.04	O
ATOM	830	N	VAL	A1155	−1.527	20.973	1.215	13.24	N
ATOM	831	CA	VAL	A1155	−0.806	20.022	0.444	12.27	C
ATOM	832	CB	VAL	A1155	−0.535	18.73	1.26	12.93	C
ATOM	833	CG1	VAL	A1155	−1.88	17.94	1.51	11.63	C
ATOM	834	CG2	VAL	A1155	0.462	17.886	0.543	13.81	C
ATOM	835	C	VAL	A1155	−1.622	19.8	−0.827	10.87	C
ATOM	836	O	VAL	A1155	−2.762	19.527	−0.794	12.07	O
ATOM	837	N	VAL	A1156	−0.977	19.902	−1.962	12.01	N
ATOM	838	CA	VAL	A1156	−1.583	19.681	−3.277	11.31	C
ATOM	839	CB	VAL	A1156	−1.229	20.937	−4.185	10.29	C
ATOM	840	CG1	VAL	A1156	−1.952	20.883	−5.456	11.18	C
ATOM	841	CG2	VAL	A1156	−1.469	22.212	−3.418	6.3	C
ATOM	842	C	VAL	A1156	−1.103	18.318	−3.926	11.26	C
ATOM	843	O	VAL	A1156	0.103	18.047	−4.127	11.04	O
ATOM	844	N	LEU	A1157	−2.064	17.505	−4.295	11.75	N
ATOM	845	CA	LEU	A1157	−1.796	16.193	−4.836	13.19	C
ATOM	846	CB	LEU	A1157	−2.393	15.103	−3.892	14.39	C
ATOM	847	CG	LEU	A1157	−1.414	14.668	−2.797	14.11	C
ATOM	848	CD1	LEU	A1157	−1.38	15.742	−1.819	18.43	C
ATOM	849	CD2	LEU	A1157	−1.93	13.478	−2.133	20.54	C
ATOM	850	C	LEU	A1157	−2.435	16.028	−6.195	14	C
ATOM	851	O	LEU	A1157	−3.476	16.716	−6.456	14.03	O
ATOM	852	N	PRO	A1158	−1.868	15.084	−7.043	13.2	N
ATOM	853	CD	PRO	A1158	−0.643	14.268	−6.906	11.65	C
ATOM	854	CA	PRO	A1158	−2.582	14.75	−8.303	13.36	C
ATOM	855	CB	PRO	A1158	−1.725	13.611	−8.951	11.42	C
ATOM	856	CG	PRO	A1158	−0.418	13.751	−8.253	10.64	C
ATOM	857	C	PRO	A1158	−4.015	14.35	−8.05	12.86	C
ATOM	858	O	PRO	A1158	−4.261	13.651	−7.092	14.24	O
ATOM	859	N	TYR	A1159	−4.932	14.859	−8.858	13.23	N
ATOM	860	CA	TYR	A1159	−6.252	14.393	−8.865	13.78	C
ATOM	861	CB	TYR	A1159	−7.058	15.142	−9.93	15.01	C
ATOM	862	CG	TYR	A1159	−8.481	14.649	−9.961	12.86	C
ATOM	863	CD1	TYR	A1159	−9.297	14.773	−8.806	12.4	C
ATOM	864	CE1	TYR	A1159	−10.556	14.308	−8.758	11.04	C
ATOM	865	CD2	TYR	A1159	−8.985	13.989	−11.08	13.73	C
ATOM	866	CE2	TYR	A1159	−10.307	13.454	−11.037	13.1	C
ATOM	867	CZ	TYR	A1159	−11.07	13.657	−9.875	13.4	C
ATOM	868	OH	TYR	A1159	−12.355	13.191	−9.804	16.89	O
ATOM	869	C	TYR	A1159	−6.2	12.948	−9.211	15.49	C
ATOM	870	O	TYR	A1159	−5.444	12.519	−10.099	16.43	O
ATOM	871	N	MET	A1160	−6.991	12.165	−8.506	16.74	N
ATOM	872	CA	MET	A1160	−6.931	10.714	−8.614	16.11	C
ATOM	873	CB	MET	A1160	−6.311	10.119	−7.325	17.37	C
ATOM	874	CG	MET	A1160	−5.161	9.13	−7.551	19.28	C
ATOM	875	SD	MET	A1160	−3.813	9.522	−8.699	23.59	S
ATOM	876	CE	MET	A1160	−3.543	7.869	−9.241	22.32	C
ATOM	877	C	MET	A1160	−8.355	10.257	−8.795	16.51	C
ATOM	878	O	MET	A1160	−9.082	9.992	−7.822	14.78	O
ATOM	879	N	LYS	A1161	−8.752	10.184	−10.066	16.45	N
ATOM	880	CA	LYS	A1161	−10.146	9.947	−10.418	17.31	C
ATOM	881	CB	LYS	A1161	−10.245	9.711	−11.902	17.73	C
ATOM	882	CG	LYS	A1161	−11.664	9.683	−12.341	20.77	C
ATOM	883	CD	LYS	A1161	−11.705	9.365	−13.814	24.83	C
ATOM	884	CE	LYS	A1161	−13.144	9.363	−14.295	25.08	C
ATOM	885	NZ	LYS	A1161	−13.025	9.002	−15.7	26.92	N
ATOM	886	C	LYS	A1161	−10.867	8.77	−9.707	16.89	C
ATOM	887	O	LYS	A1161	−12.07	8.888	−9.275	17.09	O
ATOM	888	N	HIS	A1162	−10.193	7.624	−9.613	15.69	N
ATOM	889	CA	HIS	A1162	−10.88	6.482	−8.989	15.59	C
ATOM	890	CB	HIS	A1162	−10.72	5.207	−9.789	14.21	C
ATOM	891	CG	HIS	A1162	−11.262	5.341	−11.169	13.81	C
ATOM	892	CD2	HIS	A1162	−10.65	5.378	−12.376	15.14	C
ATOM	893	ND1	HIS	A1162	−12.602	5.556	−11.41	14.06	N
ATOM	894	CE1	HIS	A1162	−12.797	5.689	−12.713	16.19	C
ATOM	895	NE2	HIS	A1162	−11.631	5.557	−13.328	16.34	N
ATOM	896	C	HIS	A1162	−10.631	6.293	−7.505	15.76	C
ATOM	897	O	HIS	A1162	−11.07	5.273	−6.918	17.54	O
ATOM	898	N	GLY	A1163	−9.981	7.281	−6.891	14.54	N
ATOM	899	CA	GLY	A1163	−9.797	7.311	−5.446	13.69	C
ATOM	900	C	GLY	A1163	−8.933	6.175	−4.992	13.15	C
ATOM	901	O	GLY	A1163	−8.07	5.685	−5.752	12.3	O
ATOM	902	N	ASP	A1164	−9.204	5.721	−3.784	13.21	N
ATOM	903	CA	ASP	A1164	−8.424	4.633	−3.228	15.24	C
ATOM	904	CB	ASP	A1164	−8.358	4.621	−1.67	15.61	C
ATOM	905	CG	ASP	A1164	−9.602	3.98	−0.995	20.21	C
ATOM	906	OD1	ASP	A1164	−10.69	4.556	−0.969	25.32	O
ATOM	907	OD2	ASP	A1164	−9.498	2.888	−0.421	27.01	O
ATOM	908	C	ASP	A1164	−8.831	3.266	−3.739	15.25	C
ATOM	909	O	ASP	A1164	−9.991	2.932	−3.954	14.63	O
ATOM	910	N	LEU	A1165	−7.802	2.456	−3.823	16.8	N
ATOM	911	CA	LEU	A1165	−7.867	1.131	−4.346	18.15	C
ATOM	912	CB	LEU	A1165	−6.471	0.555	−4.155	18.15	C
ATOM	913	CG	LEU	A1165	−6.254	−0.82	−4.745	18.98	C
ATOM	914	CD1	LEU	A1165	−6.799	−0.956	−6.187	19.58	C
ATOM	915	CD2	LEU	A1165	−4.782	−0.942	−4.773	23.5	C
ATOM	916	C	LEU	A1165	−8.88	0.262	−3.617	18.36	C
ATOM	917	O	LEU	A1165	−9.566	−0.575	−4.2	17.43	O
ATOM	918	O	GLN	A1166	−11.809	−1.243	−1.678	23.09	O
ATOM	919	N	GLN	A1166	−8.781	0.307	−2.284	20
ATOM	920	CA	GLN	A1166	−9.693	−0.321	−1.354	20
ATOM	921	C	GLN	A1166	−11.177	−0.243	−1.617	20
ATOM	922	CB	GLN	A1166	−9.303	−0.104	0.131	20
ATOM	923	CG	GLN	A1166	−9.599	−1.201	1.163	20
ATOM	924	CD	GLN	A1166	−11.008	−1.183	1.711	20
ATOM	925	OE1	GLN	A1166	−11.667	−0.191	1.668	20
ATOM	926	NE2	GLN	A1166	−11.455	−2.294	2.208	20
ATOM	927	N	ASN	A1167	−11.721	0.971	−1.76	22.82	N
ATOM	928	CA	ASN	A1167	−13.142	1.243	−2.091	22.98	C
ATOM	929	CB	ASN	A1167	−13.482	2.739	−1.849	23.61	C
ATOM	930	CG	ASN	A1167	−13.721	3.05	−0.404	24.86	C
ATOM	931	OD1	ASN	A1167	−14.747	2.681	0.17	29.97	O
ATOM	932	ND2	ASN	A1167	−12.777	3.729	0.201	24.59	N
ATOM	933	C	ASN	A1167	−13.365	0.97	−3.554	22.09	C
ATOM	934	O	ASN	A1167	−14.472	0.568	−3.972	22.42	O
ATOM	935	N	PHE	A1168	−12.336	1.214	−4.352	20.93	N
ATOM	936	CA	PHE	A1168	−12.444	0.801	−5.741	21.8	C
ATOM	937	CB	PHE	A1168	−11.238	1.267	−6.545	22.22	C
ATOM	938	CG	PHE	A1168	−11.36	1.012	−7.966	23.93	C
ATOM	939	CD1	PHE	A1168	−12.022	1.922	−8.777	28.08	C
ATOM	940	CD2	PHE	A1168	−10.854	−0.18	−8.513	28.78	C
ATOM	941	CE1	PHE	A1168	−12.208	1.659	−10.153	31.38	C
ATOM	942	CE2	PHE	A1168	−11.014	−0.482	−9.875	30.49	C
ATOM	943	CZ	PHE	A1168	−11.688	0.438	−10.709	29.96	C
ATOM	944	C	PHE	A1168	−12.742	−0.711	−5.906	20.84	C
ATOM	945	O	PHE	A1168	−13.71	−1.104	−6.509	21.8	O
ATOM	946	N	ILE	A1169	−11.932	−1.557	−5.318	21.69	N
ATOM	947	CA	ILE	A1169	−12.101	−3.02	−5.434	21.21	C
ATOM	948	CB	ILE	A1169	−10.79	−3.818	−4.97	20.88	C
ATOM	949	CG2	ILE	A1169	−9.584	−3.379	−5.84	16.89	C
ATOM	950	CG1	ILE	A1169	−10.53	−3.655	−3.444	20.13	C
ATOM	951	CD1	ILE	A1169	−9.219	−4.284	−2.912	17.66	C
ATOM	952	C	ILE	A1169	−13.327	−3.475	−4.699	22.65	C
ATOM	953	O	ILE	A1169	−13.956	−4.433	−5.044	24.92	O
ATOM	954	N	ARG	A1170	−13.696	−2.769	−3.675	24.78	N
ATOM	955	CA	ARG	A1170	−14.841	−3.173	−2.895	27.45	C
ATOM	956	CB	ARG	A1170	−14.573	−2.797	−1.471	26.7	C
ATOM	957	CG	ARG	A1170	−15.698	−2.707	−0.613	29.73	C
ATOM	958	CD	ARG	A1170	−15.338	−1.544	0.225	36.17	C
ATOM	959	NE	ARG	A1170	−15.115	−1.902	1.627	43.74	N
ATOM	960	CZ	ARG	A1170	−14.896	−0.989	2.59	45.61	C
ATOM	961	NH1	ARG	A1170	−14.837	0.324	2.25	37.76	N
ATOM	962	NH2	ARG	A1170	−14.718	−1.399	3.877	43.16	N
ATOM	963	C	ARG	A1170	−16.198	−2.692	−3.43	29.47	C
ATOM	964	O	ARG	A1170	−17.234	−3.059	−2.907	31.36	O
ATOM	965	N	ASN	A1171	−16.217	−1.936	−4.522	32.08	N
ATOM	966	CA	ASN	A1171	−17.475	−1.556	−5.177	33.39	C
ATOM	967	CB	ASN	A1171	−17.367	−0.142	−5.702	34.28	C
ATOM	968	CG	ASN	A1171	−18.728	0.484	−5.977	34.85	C
ATOM	969	OD1	ASN	A1171	−18.83	1.706	−6.129	32.84	O
ATOM	970	ND2	ASN	A1171	−19.779	−0.34	−6.017	34.99	N
ATOM	971	C	ASN	A1171	−17.889	−2.476	−6.327	33.85	C
ATOM	972	O	ASN	A1171	−17.171	−2.562	−7.326	32.39	O
ATOM	973	N	GLU	A1172	−19.046	−3.143	−6.172	35.59	N
ATOM	974	CA	GLU	A1172	−19.548	−4.089	−7.207	37.83	C
ATOM	975	CB	GLU	A1172	−20.558	−5.143	−6.681	38.24	C
ATOM	976	CG	GLU	A1172	−20.166	−5.831	−5.304	42.55	C
ATOM	977	CD	GLU	A1172	−18.806	−6.659	−5.293	48.09	C
ATOM	978	OE1	GLU	A1172	−18.827	−7.858	−5.695	49.77	O
ATOM	979	OE2	GLU	A1172	−17.727	−6.153	−4.82	48.47	O
ATOM	980	C	GLU	A1172	−20.001	−3.393	−8.499	37.62	C
ATOM	981	O	GLU	A1172	−20.113	−4.038	−9.537	38.48	O
ATOM	982	N	THR	A1173	−20.151	−2.072	−8.448	37.81	N
ATOM	983	CA	THR	A1173	−20.229	−1.225	−9.646	38.22	C
ATOM	984	CB	THR	A1173	−20.255	0.238	−9.247	38.54	C
ATOM	985	OG1	THR	A1173	−21.41	0.471	−8.421	42.46	O
ATOM	986	CG2	THR	A1173	−20.294	1.169	−10.489	39.4	C
ATOM	987	C	THR	A1173	−19.051	−1.353	−10.595	37.94	C
ATOM	988	O	THR	A1173	−19.151	−0.997	−11.783	39.05	O
ATOM	989	N	HIS	A1174	−17.913	−1.768	−10.058	36.95	N
ATOM	990	CA	HIS	A1174	−16.674	−1.912	−10.826	36.02	C
ATOM	991	CB	HIS	A1174	−15.462	−1.363	−10.036	37.52	C
ATOM	992	CG	HIS	A1174	−15.661	−0.004	−9.393	41.68	C
ATOM	993	CD2	HIS	A1174	−14.856	1.087	−9.375	42.46	C
ATOM	994	ND1	HIS	A1174	−16.769	0.337	−8.635	47.13	N
ATOM	995	CE1	HIS	A1174	−16.646	1.581	−8.205	44.27	C
ATOM	996	NE2	HIS	A1174	−15.493	2.056	−8.641	44.18	N
ATOM	997	C	HIS	A1174	−16.519	−3.437	−11	33.97	C
ATOM	998	O	HIS	A1174	−17.201	−4.25	−10.316	33.49	O
ATOM	999	N	ASN	A1175	−15.63	−3.856	−11.89	31.33	N
ATOM	1000	CA	ASN	A1175	−15.406	−5.303	−12.013	28.29	C
ATOM	1001	CB	ASN	A1175	−16.401	−5.944	−13.003	26.81	C
ATOM	1002	CG	ASN	A1175	−16.56	−7.457	−12.797	27.33	C
ATOM	1003	OD1	ASN	A1175	−16.965	−7.914	−11.714	25.48	O
ATOM	1004	ND2	ASN	A1175	−16.234	−8.25	−13.846	23.69	N
ATOM	1005	C	ASN	A1175	−13.967	−5.677	−12.35	26.55	C
ATOM	1006	O	ASN	A1175	−13.708	−6.266	−13.408	26.61	O
ATOM	1007	N	PRO	A1176	−13.036	−5.42	−11.418	25.23	N
ATOM	1008	CD	PRO	A1176	−13.117	−4.731	−10.105	24.47	C
ATOM	1009	CA	PRO	A1176	−11.683	−5.913	−11.71	24.16	C
ATOM	1010	CB	PRO	A1176	−10.826	−5.27	−10.581	24.13	C
ATOM	1011	CG	PRO	A1176	−11.784	−5.014	−9.455	23.25	C
ATOM	1012	C	PRO	A1176	−11.63	−7.463	−11.712	22.75	C
ATOM	1013	O	PRO	A1176	−12.121	−8.118	−10.79	23.37	O
ATOM	1014	N	THR	A1177	−11.114	−8.04	−12.784	21.08	N
ATOM	1015	CA	THR	A1177	−10.898	−9.469	−12.874	18.85	C
ATOM	1016	CB	THR	A1177	−10.494	−9.914	−14.3	18.88	C
ATOM	1017	OG1	THR	A1177	−9.242	−9.28	−14.634	19.84	O
ATOM	1018	CG2	THR	A1177	−11.598	−9.527	−15.347	18.87	C
ATOM	1019	C	THR	A1177	−9.757	−9.846	−11.899	17.26	C
ATOM	1020	O	THR	A1177	−9.065	−9.003	−11.348	15.8	O
ATOM	1021	N	VAL	A1178	−9.607	−11.133	−11.684	15.8	N
ATOM	1022	CA	VAL	A1178	−8.509	−11.651	−10.904	16.14	C
ATOM	1023	CB	VAL	A1178	−8.5	−13.223	−10.915	15.53	C
ATOM	1024	CG1	VAL	A1178	−7.309	−13.705	−10.261	15.69	C
ATOM	1025	CG2	VAL	A1178	−9.747	−13.793	−10.221	15.73	C
ATOM	1026	C	VAL	A1178	−7.219	−11.17	−11.532	14.86	C
ATOM	1027	O	VAL	A1178	−6.359	−10.704	−10.845	15.18	O
ATOM	1028	N	LYS	A1179	−7.085	−11.347	−12.847	15.44	N
ATOM	1029	CA	LYS	A1179	−5.966	−10.765	−13.584	16.04	C
ATOM	1030	CB	LYS	A1179	−6.177	−10.988	−15.109	16.98	C
ATOM	1031	CG	LYS	A1179	−5.079	−10.35	−16.015	18.66	C
ATOM	1032	CD	LYS	A1179	−4.147	−11.355	−16.683	18.04	C
ATOM	1033	CE	LYS	A1179	−3.388	−10.723	−17.929	20.93	C
ATOM	1034	NZ	LYS	A1179	−2.56	−11.797	−18.707	22.94	N
ATOM	1035	C	LYS	A1179	−5.727	−9.246	−13.248	14.25	C
ATOM	1036	O	LYS	A1179	−4.607	−8.793	−13.141	11.31	O
ATOM	1037	N	ASP	A1180	−6.812	−8.495	−13.133	14.79	N
ATOM	1038	CA	ASP	A1180	−6.788	−7.03	−12.867	15.14	C
ATOM	1039	CB	ASP	A1180	−8.224	−6.451	−13.001	15.66	C
ATOM	1040	CG	ASP	A1180	−8.624	−6.138	−14.446	21.29	C
ATOM	1041	OD1	ASP	A1180	−9.866	−5.915	−14.763	24.01	O
ATOM	1042	OD2	ASP	A1180	−7.679	−6.095	−15.281	27.62	O
ATOM	1043	C	ASP	A1180	−6.25	−6.82	−11.46	13.2	C
ATOM	1044	O	ASP	A1180	−5.379	−5.979	−11.212	13.36	O
ATOM	1045	N	LEU	A1181	−6.756	−7.615	−10.527	11.47	N
ATOM	1046	CA	LEU	A1181	−6.303	−7.517	−9.13	9.77	C
ATOM	1047	CB	LEU	A1181	−7.187	−8.413	−8.305	9.68	C
ATOM	1048	CG	LEU	A1181	−8.476	−7.975	−7.638	7.92	C
ATOM	1049	CD1	LEU	A1181	−8.865	−6.576	−7.944	8.74	C
ATOM	1050	CD2	LEU	A1181	−9.58	−9	−7.905	3.42	C
ATOM	1051	C	LEU	A1181	−4.848	−7.876	−8.912	8.81	C
ATOM	1052	O	LEU	A1181	−4.104	−7.223	−8.163	8.69	O
ATOM	1053	N	ILE	A1182	−4.408	−8.927	−9.57	8.8	N
ATOM	1054	CA	ILE	A1182	−2.986	−9.267	−9.562	8.84	C
ATOM	1055	CB	ILE	A1182	−2.76	−10.613	−10.313	10.68	C
ATOM	1056	CG2	ILE	A1182	−1.247	−11.036	−10.247	7.66	C
ATOM	1057	CG1	ILE	A1182	−3.664	−11.715	−9.681	10.62	C
ATOM	1058	CD1	ILE	A1182	−3.664	−13.062	−10.422	12.08	C
ATOM	1059	C	ILE	A1182	−2.176	−8.16	−10.181	8.2	C
ATOM	1060	O	ILE	A1182	−1.12	−7.817	−9.686	8.72	O
ATOM	1061	N	GLY	A1183	−2.646	−7.59	−11.278	7.96	N
ATOM	1062	CA	GLY	A1183	−2.02	−6.43	−11.836	8.15	C
ATOM	1063	C	GLY	A1183	−1.877	−5.284	−10.854	9.46	C
ATOM	1064	O	GLY	A1183	−0.836	−4.71	−10.786	9.11	O
ATOM	1065	N	PHE	A1184	−2.966	−4.912	−10.133	11.34	N
ATOM	1066	CA	PHE	A1184	−2.919	−3.923	−9.065	10.26	C
ATOM	1067	CB	PHE	A1184	−4.239	−3.763	−8.316	9.89	C
ATOM	1068	CG	PHE	A1184	−5.4	−3.275	−9.179	11.92	C
ATOM	1069	CD1	PHE	A1184	−5.194	−2.497	−10.285	14.53	C
ATOM	1070	CD2	PHE	A1184	−6.724	−3.591	−8.847	14.63	C
ATOM	1071	CE1	PHE	A1184	−6.273	−2.09	−11.091	15.48	C
ATOM	1072	CE2	PHE	A1184	−7.779	−3.188	−9.636	14.52	C
ATOM	1073	CZ	PHE	A1184	−7.539	−2.445	−10.775	12.06	C
ATOM	1074	C	PHE	A1184	−1.799	−4.254	−8.124	10.46	C
ATOM	1075	O	PHE	A1184	−0.991	−3.356	−7.809	10.91	O
ATOM	1076	N	GLY	A1185	−1.732	−5.534	−7.687	10.44	N
ATOM	1077	CA	GLY	A1185	−0.685	−6.022	−6.776	7.06	C
ATOM	1078	C	GLY	A1185	0.675	−5.808	−7.442	7.98	C
ATOM	1079	O	GLY	A1185	1.649	−5.263	−6.834	8.85	O
ATOM	1080	N	LEU	A1186	0.788	−6.237	−8.698	7.09	N
ATOM	1081	CA	LEU	A1186	2.034	−5.966	−9.473	6.15	C
ATOM	1082	CB	LEU	A1186	1.97	−6.564	−10.864	3.48	C
ATOM	1083	CG	LEU	A1186	3.21	−6.47	−11.81	7.84	C
ATOM	1084	CD1	LEU	A1186	4.5	−6.921	−11.173	10.47	C
ATOM	1085	CD2	LEU	A1186	2.965	−7.238	−13.117	5.94	C
ATOM	1086	C	LEU	A1186	2.456	−4.469	−9.46	6.45	C
ATOM	1087	O	LEU	A1186	3.646	−4.159	−9.149	8.35	O
ATOM	1088	N	GLN	A1187	1.518	−3.556	−9.706	4.69	N
ATOM	1089	CA	GLN	A1187	1.827	−2.119	−9.774	7.07	C
ATOM	1090	CB	GLN	A1187	0.559	−1.336	−10.225	7.15	C
ATOM	1091	CG	GLN	A1187	0.145	−1.578	−11.706	9.39	C
ATOM	1092	CD	GLN	A1187	−1.053	−0.767	−12.136	9.26	C
ATOM	1093	OE1	GLN	A1187	−1.039	0.462	−12.092	11.28	O
ATOM	1094	NE2	GLN	A1187	−2.08	−1.441	−12.595	10.28	N
ATOM	1095	C	GLN	A1187	2.328	−1.586	−8.435	7.09	C
ATOM	1096	O	GLN	A1187	3.262	−0.835	−8.35	8.11	O
ATOM	1097	N	VAL	A1188	1.657	−1.962	−7.355	8.62	N
ATOM	1098	CA	VAL	A1188	2.069	−1.609	−6.017	7.25	C
ATOM	1099	CB	VAL	A1188	1.029	−2.178	−4.976	7.78	C
ATOM	1100	CG1	VAL	A1188	1.56	−1.976	−3.526	6.03	C
ATOM	1101	CG2	VAL	A1188	−0.316	−1.492	−5.103	6.83	C
ATOM	1102	C	VAL	A1188	3.452	−2.217	−5.683	7.86	C
ATOM	1103	O	VAL	A1188	4.251	−1.56	−5.06	9.73	O
ATOM	1104	N	ALA	A1189	3.692	−3.491	−5.993	6.51	N
ATOM	1105	CA	ALA	A1189	5.007	−4.053	−5.813	6.67	C
ATOM	1106	CB	ALA	A1189	5.075	−5.504	−6.374	5.44	C
ATOM	1107	C	ALA	A1189	6.071	−3.189	−6.516	7.79	C
ATOM	1108	O	ALA	A1189	7.194	−3.024	−5.945	7.89	O
ATOM	1109	N	LYS	A1190	5.787	−2.67	−7.758	6.25	N
ATOM	1110	CA	LYS	A1190	6.796	−1.834	−8.454	4.83	C
ATOM	1111	CB	LYS	A1190	6.361	−1.573	−9.894	5.09	C
ATOM	1112	CG	LYS	A1190	6.426	−2.867	−10.641	6.53	C
ATOM	1113	CD	LYS	A1190	5.901	−2.797	−12.039	11.48	C
ATOM	1114	CE	LYS	A1190	6.178	−4.122	−12.805	10.35	C
ATOM	1115	NZ	LYS	A1190	5.376	−4.012	−14.119	5.13	N
ATOM	1116	C	LYS	A1190	7.025	−0.52	−7.774	5.07	C
ATOM	1117	O	LYS	A1190	8.171	−0.069	−7.643	6.03	O
ATOM	1118	N	GLY	A1191	5.919	0.157	−7.41	5.61	N
ATOM	1119	CA	GLY	A1191	5.97	1.325	−6.513	5.95	C
ATOM	1120	C	GLY	A1191	6.781	1.045	−5.299	6.41	C
ATOM	1121	O	GLY	A1191	7.707	1.773	−4.994	7.75	O
ATOM	1122	N	MET	A1192	6.487	−0.048	−4.587	7.71	N
ATOM	1123	CA	MET	A1192	7.236	−0.323	−3.339	8.41	C
ATOM	1124	CB	MET	A1192	6.577	−1.482	−2.653	10.35	C
ATOM	1125	CG	MET	A1192	5.282	−1.115	−1.963	9.89	C
ATOM	1126	SD	MET	A1192	5.581	0.263	−0.802	14.47	S
ATOM	1127	CE	MET	A1192	6.863	−0.345	0.254	11.37	C
ATOM	1128	C	MET	A1192	8.718	−0.659	−3.568	9.94	C
ATOM	1129	O	MET	A1192	9.61	−0.216	−2.828	9.3	O
ATOM	1130	N	LYS	A1193	9.004	−1.42	−4.634	9.24	N
ATOM	1131	CA	LYS	A1193	10.367	−1.654	−5.007	8.67	C
ATOM	1132	CB	LYS	A1193	10.443	−2.536	−6.202	8.81	C
ATOM	1133	CG	LYS	A1193	11.81	−3.023	−6.484	10.02	C
ATOM	1134	CD	LYS	A1193	11.979	−3.575	−7.901	8.96	C
ATOM	1135	CE	LYS	A1193	13.498	−3.572	−8.277	9.49	C
ATOM	1136	NZ	LYS	A1193	13.743	−4.27	−9.513	15.27	N
ATOM	1137	C	LYS	A1193	11.12	−0.367	−5.26	9.78	C
ATOM	1138	O	LYS	A1193	12.272	−0.228	−4.873	9.11	O
ATOM	1139	N	TYR	A1194	10.451	0.594	−5.896	10.85	N
ATOM	1140	CA	TYR	A1194	11.023	1.904	−6.061	10.32	C
ATOM	1141	CB	TYR	A1194	10.051	2.76	−6.851	11.52	C
ATOM	1142	CG	TYR	A1194	10.526	4.172	−6.973	11.52	C
ATOM	1143	CD1	TYR	A1194	11.52	4.483	−7.857	9.72	C
ATOM	1144	CE1	TYR	A1194	11.998	5.785	−7.936	16.28	C
ATOM	1145	CD2	TYR	A1194	9.963	5.196	−6.179	12.54	C
ATOM	1146	CE2	TYR	A1194	10.407	6.485	−6.224	14.38	C
ATOM	1147	CZ	TYR	A1194	11.42	6.793	−7.129	18.51	C
ATOM	1148	OH	TYR	A1194	11.878	8.103	−7.25	19.47	O
ATOM	1149	C	TYR	A1194	11.39	2.561	−4.701	10.21	C
ATOM	1150	O	TYR	A1194	12.564	2.975	−4.43	9.3	O
ATOM	1151	N	LEU	A1195	10.378	2.622	−3.829	10.8	N
ATOM	1152	CA	LEU	A1195	10.464	3.313	−2.54	10.49	C
ATOM	1153	CB	LEU	A1195	9.125	3.189	−1.851	11.47	C
ATOM	1154	CG	LEU	A1195	8.115	4.35	−1.972	9.95	C
ATOM	1155	CD1	LEU	A1195	7.944	4.563	−3.323	16.01	C
ATOM	1156	CD2	LEU	A1195	6.792	3.895	−1.414	10.13	C
ATOM	1157	C	LEU	A1195	11.53	2.694	−1.692	10.23	C
ATOM	1158	O	LEU	A1195	12.311	3.368	−1.107	11.31	O
ATOM	1159	N	ALA	A1196	11.587	1.377	−1.681	11.66	N
ATOM	1160	CA	ALA	A1196	12.606	0.636	−0.935	12.04	C
ATOM	1161	CB	ALA	A1196	12.259	−0.832	−0.918	14.25	C
ATOM	1162	C	ALA	A1196	14.031	0.83	−1.442	11.92	C
ATOM	1163	O	ALA	A1196	14.956	0.679	−0.685	10.62	O
ATOM	1164	N	SER	A1197	14.196	1.198	−2.704	12.53	N
ATOM	1165	CA	SER	A1197	15.516	1.523	−3.258	14.34	C
ATOM	1166	CB	SER	A1197	15.512	1.502	−4.809	12.95	C
ATOM	1167	OG	SER	A1197	14.768	2.609	−5.335	18.14	O
ATOM	1168	C	SER	A1197	15.982	2.872	−2.776	15.31	C
ATOM	1169	O	SER	A1197	17.151	3.148	−2.812	15.58	O
ATOM	1170	N	LYS	A1198	15.038	3.733	−2.368	17.2	N
ATOM	1171	CA	LYS	A1198	15.335	5.058	−1.872	17.87	C
ATOM	1172	CB	LYS	A1198	14.182	5.996	−2.238	18.38	C
ATOM	1173	CG	LYS	A1198	13.869	6.115	−3.698	20.26	C
ATOM	1174	CD	LYS	A1198	15.011	6.846	−4.464	25.11	C
ATOM	1175	CE	LYS	A1198	14.913	6.593	−6.028	30.26	C
ATOM	1176	NZ	LYS	A1198	16.214	6.552	−6.827	23.87	N
ATOM	1177	C	LYS	A1198	15.376	4.861	−0.383	19	C
ATOM	1178	O	LYS	A1198	15.387	5.808	0.383	20.3	O
ATOM	1179	N	LYS	A1199	15.344	3.605	0.022	18.71	N
ATOM	1180	CA	LYS	A1199	15.19	3.22	1.411	20.01	C
ATOM	1181	CB	LYS	A1199	16.523	3.188	2.164	20.74	C
ATOM	1182	CG	LYS	A1199	17.471	4.222	1.788	21.64	C
ATOM	1183	CD	LYS	A1199	18.294	3.84	0.543	31.5	C
ATOM	1184	CE	LYS	A1199	19.039	2.467	0.574	29.62	C
ATOM	1185	NZ	LYS	A1199	18.412	1.599	1.567	28.43	N
ATOM	1186	C	LYS	A1199	14.135	4.038	2.147	19.36	C
ATOM	1187	O	LYS	A1199	14.377	4.557	3.212	19.28	O
ATOM	1188	N	PHE	A1200	12.961	4.151	1.547	18.79	N
ATOM	1189	CA	PHE	A1200	11.834	4.788	2.197	17.86	C
ATOM	1190	CB	PHE	A1200	11.029	5.568	1.14	17.17	C
ATOM	1191	CG	PHE	A1200	9.743	6.111	1.664	18.38	C
ATOM	1192	CD1	PHE	A1200	8.571	5.39	1.535	12.53	C
ATOM	1193	CD2	PHE	A1200	9.718	7.361	2.338	17	C
ATOM	1194	CE1	PHE	A1200	7.385	5.872	2.071	15.8	C
ATOM	1195	CE2	PHE	A1200	8.535	7.851	2.811	14.97	C
ATOM	1196	CZ	PHE	A1200	7.349	7.091	2.689	13.81	C
ATOM	1197	C	PHE	A1200	11.01	3.658	2.786	16.62	C
ATOM	1198	O	PHE	A1200	10.479	2.841	2.025	16.28	O
ATOM	1199	N	VAL	A1201	10.893	3.612	4.107	16.06	N
ATOM	1200	CA	VAL	A1201	9.965	2.684	4.803	14.92	C
ATOM	1201	CB	VAL	A1201	10.506	2.167	6.16	14.85	C
ATOM	1202	CG1	VAL	A1201	9.448	1.315	6.839	14.19	C
ATOM	1203	CG2	VAL	A1201	11.84	1.313	5.982	12.79	C
ATOM	1204	C	VAL	A1201	8.575	3.318	4.939	15.98	C
ATOM	1205	O	VAL	A1201	8.428	4.412	5.475	18.87	O
ATOM	1206	N	HIS	A1202	7.552	2.661	4.405	15.17	N
ATOM	1207	CA	HIS	A1202	6.283	3.264	4.251	14.89	C
ATOM	1208	CB	HIS	A1202	5.491	2.509	3.135	15.35	C
ATOM	1209	CG	HIS	A1202	4.164	3.144	2.826	17.55	C
ATOM	1210	CD2	HIS	A1202	3.75	3.885	1.765	20.15	C
ATOM	1211	ND1	HIS	A1202	3.118	3.161	3.736	15.04	N
ATOM	1212	CE1	HIS	A1202	2.11	3.845	3.218	17.84	C
ATOM	1213	NE2	HIS	A1202	2.462	4.291	2.023	17.78	N
ATOM	1214	C	HIS	A1202	5.505	3.343	5.591	14.91	C
ATOM	1215	O	HIS	A1202	4.95	4.386	5.964	12.58	O
ATOM	1216	N	ARG	A1203	5.426	2.179	6.266	16.87	N
ATOM	1217	CA	ARG	A1203	4.83	1.98	7.621	17.09	C
ATOM	1218	CB	ARG	A1203	5.296	3.035	8.654	16.92	C
ATOM	1219	CG	ARG	A1203	6.843	3.146	8.598	25.55	C
ATOM	1220	CD	ARG	A1203	7.385	3.934	9.684	35.04	C
ATOM	1221	NE	ARG	A1203	6.647	5.198	9.715	46.62	N
ATOM	1222	CZ	ARG	A1203	7.231	6.397	9.8	50.6	C
ATOM	1223	NH1	ARG	A1203	6.485	7.493	9.835	51.11	N
ATOM	1224	NH2	ARG	A1203	8.569	6.492	9.91	52.32	N
ATOM	1225	C	ARG	A1203	3.316	1.808	7.598	15.31	C
ATOM	1226	O	ARG	A1203	2.804	1.194	8.459	16.7	O
ATOM	1227	N	ASP	A1204	2.634	2.256	6.567	14.71	N
ATOM	1228	CA	ASP	A1204	1.216	2.108	6.521	13.7	C
ATOM	1229	CB	ASP	A1204	0.457	3.387	6.964	12.97	C
ATOM	1230	CG	ASP	A1204	−1.043	3.076	7.256	14.25	C
ATOM	1231	OD1	ASP	A1204	−1.836	4.044	7.394	15.49	O
ATOM	1232	OD2	ASP	A1204	−1.44	1.858	7.263	9.66	O
ATOM	1233	C	ASP	A1204	0.774	1.643	5.141	12.88	C
ATOM	1234	O	ASP	A1204	−0.186	2.174	4.56	14.12	O
ATOM	1235	N	LEU	A1205	1.478	0.646	4.609	11.34	N
ATOM	1236	CA	LEU	A1205	1.112	0.108	3.321	8.79	C
ATOM	1237	CB	LEU	A1205	2.258	−0.744	2.749	8.43	C
ATOM	1238	CG	LEU	A1205	1.935	−1.463	1.458	10.04	C
ATOM	1239	CD1	LEU	A1205	1.684	−0.398	0.27	13.53	C
ATOM	1240	CD2	LEU	A1205	3.076	−2.419	1.125	13.6	C
ATOM	1241	C	LEU	A1205	−0.146	−0.673	3.471	7.99	C
ATOM	1242	O	LEU	A1205	−0.17	−1.624	4.263	8.8	O
ATOM	1243	N	ALA	A1206	−1.204	−0.28	2.738	7.11	N
ATOM	1244	CA	ALA	A1206	−2.522	−0.922	2.824	5.5	C
ATOM	1245	CB	ALA	A1206	−3.232	−0.459	4.063	4.27	C
ATOM	1246	C	ALA	A1206	−3.265	−0.446	1.584	6.81	C
ATOM	1247	O	ALA	A1206	−2.838	0.581	1.02	8.33	O
ATOM	1248	N	ALA	A1207	−4.313	−1.167	1.132	5.92	N
ATOM	1249	CA	ALA	A1207	−5.061	−0.819	−0.065	6.86	C
ATOM	1250	CB	ALA	A1207	−6.198	−1.931	−0.465	6.56	C
ATOM	1251	C	ALA	A1207	−5.664	0.575	−0.007	6.43	C
ATOM	1252	O	ALA	A1207	−5.717	1.282	−0.997	7.31	O
ATOM	1253	N	ARG	A1208	−6.118	0.96	1.163	8.2	N
ATOM	1254	CA	ARG	A1208	−6.685	2.317	1.469	7.4	C
ATOM	1255	CB	ARG	A1208	−7.153	2.406	2.935	5.83	C
ATOM	1256	CG	ARG	A1208	−6.069	2.35	3.935	6.41	C
ATOM	1257	CD	ARG	A1208	−6.516	2.624	5.392	7.75	C
ATOM	1258	NE	ARG	A1208	−5.463	2.178	6.312	9.76	N
ATOM	1259	CZ	ARG	A1208	−5.268	0.92	6.703	10.11	C
ATOM	1260	NH1	ARG	A1208	−6.079	−0.022	6.275	11.92	N
ATOM	1261	NH2	ARG	A1208	−4.249	0.595	7.505	10.73	N
ATOM	1262	C	ARG	A1208	−5.723	3.419	1.17	8.21	C
ATOM	1263	O	ARG	A1208	−6.139	4.544	0.915	9.68	O
ATOM	1264	N	ASN	A1209	−4.444	3.09	1.145	8.68	N
ATOM	1265	CA	ASN	A1209	−3.399	4.061	0.811	11.82	C
ATOM	1266	CB	ASN	A1209	−2.244	4.061	1.85	11.24	C
ATOM	1267	CG	ASN	A1209	−2.656	4.697	3.119	14.87	C
ATOM	1268	OD1	ASN	A1209	−3.234	5.806	3.092	17.92	O
ATOM	1269	ND2	ASN	A1209	−2.404	4.018	4.255	12.83	N
ATOM	1270	C	ASN	A1209	−2.83	3.996	−0.638	11.91	C
ATOM	1271	O	ASN	A1209	−1.844	4.607	−0.923	11.85	O
ATOM	1272	N	CYS	A1210	−3.491	3.295	−1.537	12.5	N
ATOM	1273	CA	CYS	A1210	−3.014	3.254	−2.893	12.98	C
ATOM	1274	CB	CYS	A1210	−2.797	1.789	−3.34	14.54	C
ATOM	1275	SG	CYS	A1210	−1.63	0.848	−2.296	12.02	S
ATOM	1276	C	CYS	A1210	−4.108	3.876	−3.657	13.31	C
ATOM	1277	O	CYS	A1210	−5.28	3.55	−3.418	13.93	O
ATOM	1278	N	MET	A1211	−3.749	4.745	−4.594	13.69	N
ATOM	1279	CA	MET	A1211	−4.737	5.583	−5.243	14.05	C
ATOM	1280	CB	MET	A1211	−4.318	7.044	−5.221	13.18	C
ATOM	1281	CG	MET	A1211	−4.372	7.766	−3.853	14.65	C
ATOM	1282	SD	MET	A1211	−6.007	7.72	−3.108	19.96	S
ATOM	1283	CE	MET	A1211	−5.754	6.684	−1.674	18.93	C
ATOM	1284	C	MET	A1211	−4.793	5.093	−6.651	15.42	C
ATOM	1285	O	MET	A1211	−3.861	4.454	−7.062	17.43	O
ATOM	1286	N	LEU	A1212	−5.844	5.432	−7.405	15.97	N
ATOM	1287	CA	LEU	A1212	−6.055	4.901	−8.741	16.16	C
ATOM	1288	CB	LEU	A1212	−7.151	3.801	−8.617	16.56	C
ATOM	1289	CG	LEU	A1212	−7.139	2.614	−9.573	17.65	C
ATOM	1290	CD1	LEU	A1212	−5.859	1.949	−9.639	23.51	C
ATOM	1291	CD2	LEU	A1212	−8.148	1.645	−9.272	19.13	C
ATOM	1292	C	LEU	A1212	−6.465	6.014	−9.699	16.21	C
ATOM	1293	O	LEU	A1212	−7.471	6.687	−9.487	14.42	O
ATOM	1294	N	ASP	A1213	−5.64	6.267	−10.72	17.29	N
ATOM	1295	CA	ASP	A1213	−5.966	7.277	−11.686	17.98	C
ATOM	1296	CB	ASP	A1213	−4.714	7.942	−12.234	17.61	C
ATOM	1297	CG	ASP	A1213	−4.057	7.162	−13.362	21.66	C
ATOM	1298	OD1	ASP	A1213	−4.672	6.193	−13.876	24.08	O
ATOM	1299	OD2	ASP	A1213	−2.912	7.535	−13.769	20.5	O
ATOM	1300	C	ASP	A1213	−6.965	6.79	−12.774	20.22	C
ATOM	1301	O	ASP	A1213	−7.448	5.629	−12.725	19.55	O
ATOM	1302	N	GLU	A1214	−7.314	7.705	−13.703	21.62	N
ATOM	1303	CA	GLU	A1214	−8.236	7.449	−14.83	23.37	C
ATOM	1304	CB	GLU	A1214	−8.604	8.755	−15.616	23.66	C
ATOM	1305	CG	GLU	A1214	−7.572	9.41	−16.542	26.65	C
ATOM	1306	CD	GLU	A1214	−6.209	9.664	−15.865	35.32	C
ATOM	1307	OE1	GLU	A1214	−5.163	9.62	−16.55	34.94	O
ATOM	1308	OE2	GLU	A1214	−6.161	9.901	−14.619	42.76	O
ATOM	1309	C	GLU	A1214	−7.781	6.309	−15.745	23.4	C
ATOM	1310	O	GLU	A1214	−8.61	5.643	−16.379	24.55	O
ATOM	1311	N	LYS	A1215	−6.481	6.04	−15.762	22.3	N
ATOM	1312	CA	LYS	A1215	−6.01	4.85	−16.476	22.72	C
ATOM	1313	CB	LYS	A1215	−4.601	5.007	−17.096	23.86	C
ATOM	1314	CG	LYS	A1215	−4.485	6.167	−18.063	27.17	C
ATOM	1315	CD	LYS	A1215	−5.679	6.128	−19.019	38.23	C
ATOM	1316	CE	LYS	A1215	−5.745	7.422	−19.897	43.79	C
ATOM	1317	NZ	LYS	A1215	−7.201	7.763	−20.262	43.62	N
ATOM	1318	C	LYS	A1215	−5.995	3.604	−15.657	20.86	C
ATOM	1319	O	LYS	A1215	−5.58	2.607	−16.183	20.64	O
ATOM	1320	N	PHE	A1216	−6.37	3.659	−14.377	18.46	N
ATOM	1321	CA	PHE	A1216	−6.214	2.522	−13.522	17.8	C
ATOM	1322	CB	PHE	A1216	−6.913	1.295	−14.107	17.25	C
ATOM	1323	CG	PHE	A1216	−8.348	1.556	−14.511	20.05	C
ATOM	1324	CD1	PHE	A1216	−8.761	1.389	−15.824	22.43	C
ATOM	1325	CD2	PHE	A1216	−9.284	2.024	−13.58	22.9	C
ATOM	1326	CE1	PHE	A1216	−10.076	1.681	−16.183	24.6	C
ATOM	1327	CE2	PHE	A1216	−10.624	2.314	−13.951	23.53	C
ATOM	1328	CZ	PHE	A1216	−11.008	2.147	−15.237	22.85	C
ATOM	1329	C	PHE	A1216	−4.741	2.253	−13.216	17.5	C
ATOM	1330	O	PHE	A1216	−4.304	1.15	−13.082	18.14	O
ATOM	1331	N	THR	A1217	−3.957	3.298	−13.18	17.79	N
ATOM	1332	CA	THR	A1217	−2.607	3.219	−12.693	17.79	C
ATOM	1333	CB	THR	A1217	−1.804	4.287	−13.327	18.38	C
ATOM	1334	OG1	THR	A1217	−1.948	4.137	−14.748	21.49	O
ATOM	1335	CG2	THR	A1217	−0.354	4.224	−12.873	13.71	C
ATOM	1336	C	THR	A1217	−2.699	3.462	−11.183	17.99	C
ATOM	1337	O	THR	A1217	−3.245	4.477	−10.67	16.42	O
ATOM	1338	N	VAL	A1218	−2.215	2.44	−10.491	18.2	N
ATOM	1339	CA	VAL	A1218	−2.219	2.359	−9.016	15.99	C
ATOM	1340	CB	VAL	A1218	−2.161	0.864	−8.566	15.74	C
ATOM	1341	CG1	VAL	A1218	−2.229	0.783	−7.046	16.54	C
ATOM	1342	CG2	VAL	A1218	−3.25	0.032	−9.306	10.74	C
ATOM	1343	C	VAL	A1218	−0.991	3.132	−8.554	14.73	C
ATOM	1344	O	VAL	A1218	0.099	2.884	−9.049	13.83	O
ATOM	1345	N	LYS	A1219	−1.17	4.075	−7.639	14.58	N
ATOM	1346	CA	LYS	A1219	−0.015	4.811	−7.058	13.67	C
ATOM	1347	CB	LYS	A1219	−0.099	6.274	−7.451	15.2	C
ATOM	1348	CG	LYS	A1219	−0.59	6.535	−8.83	12.87	C
ATOM	1349	CD	LYS	A1219	0.553	7.063	−9.626	17.61	C
ATOM	1350	CE	LYS	A1219	0.129	8.243	−10.531	17.38	C
ATOM	1351	NZ	LYS	A1219	0.955	8.178	−11.791	20.39	N
ATOM	1352	C	LYS	A1219	0.04	4.726	−5.535	12.93	C
ATOM	1353	O	LYS	A1219	−0.889	5.08	−4.853	12.69	O
ATOM	1354	N	VAL	A1220	1.133	4.22	−5.006	13.18	N
ATOM	1355	CA	VAL	A1220	1.295	4.11	−3.584	14.16	C
ATOM	1356	CB	VAL	A1220	2.612	3.296	−3.195	15.1	C
ATOM	1357	CG1	VAL	A1220	2.647	2.973	−1.626	10.24	C
ATOM	1358	CG2	VAL	A1220	2.803	2.046	−4.12	13.42	C
ATOM	1359	C	VAL	A1220	1.368	5.516	−2.973	13.35	C
ATOM	1360	O	VAL	A1220	2.135	6.359	−3.443	12.9	O
ATOM	1361	N	ALA	A1221	0.59	5.731	−1.934	13.13	N
ATOM	1362	CA	ALA	A1221	0.477	7.015	−1.251	15.47	C
ATOM	1363	CB	ALA	A1221	−0.897	7.657	−1.458	14.33	C
ATOM	1364	C	ALA	A1221	0.767	6.868	0.204	17.59	C
ATOM	1365	O	ALA	A1221	0.471	5.839	0.824	17.38	O
ATOM	1366	N	ASP	A1222	1.379	7.919	0.731	22.48	N
ATOM	1367	CA	ASP	A1222	1.684	8.106	2.149	25.6	C
ATOM	1368	CB	ASP	A1222	3.192	8.125	2.428	27.07	C
ATOM	1369	CG	ASP	A1222	3.493	8.453	3.94	32.14	C
ATOM	1370	OD1	ASP	A1222	2.699	7.951	4.822	33.77	O
ATOM	1371	OD2	ASP	A1222	4.486	9.212	4.217	33.87	O
ATOM	1372	C	ASP	A1222	1.168	9.469	2.525	26.89	C
ATOM	1373	O	ASP	A1222	1.8	10.507	2.234	27.25	O
ATOM	1374	N	PHE	A1223	0.002	9.486	3.138	28.9	N
ATOM	1375	CA	PHE	A1223	−0.585	10.751	3.509	29.85	C
ATOM	1376	CB	PHE	A1223	−2.098	10.611	3.545	29.09	C
ATOM	1377	CG	PHE	A1223	−2.653	10.334	2.195	27.66	C
ATOM	1378	CD1	PHE	A1223	−2.643	11.317	1.22	26.86	C
ATOM	1379	CD2	PHE	A1223	−3.137	9.056	1.86	30.65	C
ATOM	1380	CE1	PHE	A1223	−3.089	11.039	−0.071	24.73	C
ATOM	1381	CE2	PHE	A1223	−3.645	8.786	0.589	25.98	C
ATOM	1382	CZ	PHE	A1223	−3.582	9.774	−0.378	26.39	C
ATOM	1383	C	PHE	A1223	0.116	11.46	4.721	31.22	C
ATOM	1384	O	PHE	A1223	0.264	12.703	4.723	29.93	O
ATOM	1385	N	GLY	A1224	0.646	10.652	5.659	32.26	N
ATOM	1386	CA	GLY	A1224	1.429	11.172	6.793	32.77	C
ATOM	1387	C	GLY	A1224	1.115	12.632	7.186	32.9	C
ATOM	1388	O	GLY	A1224	1.627	13.595	6.547	34.83	O
ATOM	1389	N	LEU	A1225	0.298	12.814	8.224	30.34	N
ATOM	1390	CA	LEU	A1225	−0.024	14.15	8.732	28.57	C
ATOM	1391	CB	LEU	A1225	1.211	15.102	8.77	29.79	C
ATOM	1392	CG	LEU	A1225	1.929	15.448	10.104	30.95	C
ATOM	1393	CD1	LEU	A1225	3.437	15.355	10.005	34.31	C
ATOM	1394	CD2	LEU	A1225	1.597	16.811	10.571	30.73	C
ATOM	1395	C	LEU	A1225	−1.205	14.74	7.982	25.9	C
ATOM	1396	O	LEU	A1225	−1.955	15.535	8.544	24.79	O
ATOM	1397	N	ALA	A1226	−1.367	14.336	6.721	24.64	N
ATOM	1398	CA	ALA	A1226	−2.529	14.746	5.877	23.24	C
ATOM	1399	CB	ALA	A1226	−2.28	14.5	4.418	22.44	C
ATOM	1400	C	ALA	A1226	−3.874	14.179	6.293	22.93	C
ATOM	1401	O	ALA	A1226	−4.884	14.705	5.881	25.88	O
ATOM	1402	N	ARG	A1227	−3.899	13.13	7.111	21.9	N
ATOM	1403	CA	ARG	A1227	−5.103	12.644	7.801	20.66	C
ATOM	1404	CB	ARG	A1227	−5.072	11.105	8.016	20.71	C
ATOM	1405	CG	ARG	A1227	−4.785	10.271	6.78	21.21	C
ATOM	1406	CD	ARG	A1227	−4.87	8.73	7.056	25.36	C
ATOM	1407	NE	ARG	A1227	−4.892	7.917	5.827	26.96	N
ATOM	1408	CZ	ARG	A1227	−5.974	7.695	5.082	27.88	C
ATOM	1409	NH1	ARG	A1227	−7.16	8.212	5.416	26.34	N
ATOM	1410	NH2	ARG	A1227	−5.871	6.976	3.966	28.15	N
ATOM	1411	C	ARG	A1227	−5.291	13.342	9.152	18.83	C
ATOM	1412	O	ARG	A1227	−4.498	13.203	10.087	17.34	O
ATOM	1413	N	ASP	A1228	−6.334	14.138	9.243	18.68	N
ATOM	1414	CA	ASP	A1228	−6.686	14.721	10.519	18.91	C
ATOM	1415	CB	ASP	A1228	−7.921	15.575	10.374	17.57	C
ATOM	1416	CG	ASP	A1228	−7.668	16.824	9.579	19.31	C
ATOM	1417	OD1	ASP	A1228	−6.496	17.218	9.34	19.72	O
ATOM	1418	OD2	ASP	A1228	−8.671	17.429	9.178	20.69	O
ATOM	1419	C	ASP	A1228	−6.912	13.643	11.584	19.75	C
ATOM	1420	O	ASP	A1228	−6.289	13.678	12.62	19.14	O
ATOM	1421	N	MET	A1229	−7.813	12.698	11.298	21.88	N
ATOM	1422	CA	MET	A1229	−8.063	11.56	12.135	25.64	C
ATOM	1423	CB	MET	A1229	−9.439	11.661	12.693	24.99	C
ATOM	1424	CG	MET	A1229	−9.704	12.994	13.452	30.42	C
ATOM	1425	SD	MET	A1229	−11.278	12.878	14.395	36.16	S
ATOM	1426	CE	MET	A1229	−12.571	12.228	13.252	35.24	C
ATOM	1427	C	MET	A1229	−7.998	10.279	11.382	24.56	C
ATOM	1428	O	MET	A1229	−8.016	10.252	10.174	24.7	O
ATOM	1429	N	TYR	A1230	−7.966	9.201	12.145	26.77	N
ATOM	1430	CA	TYR	A1230	−7.921	7.806	11.669	26.42	C
ATOM	1431	CB	TYR	A1230	−6.702	7.141	12.275	27.51	C
ATOM	1432	CG	TYR	A1230	−5.446	7.784	11.808	28.23	C
ATOM	1433	CD1	TYR	A1230	−5.082	9.065	12.25	29.43	C
ATOM	1434	CE1	TYR	A1230	−3.974	9.693	11.788	28.12	C
ATOM	1435	CD2	TYR	A1230	−4.679	7.176	10.867	28.14	C
ATOM	1436	CE2	TYR	A1230	−3.527	7.772	10.422	32.14	C
ATOM	1437	CZ	TYR	A1230	−3.187	9.036	10.871	30.68	C
ATOM	1438	OH	TYR	A1230	−2.021	9.609	10.379	32.92	O
ATOM	1439	C	TYR	A1230	−9.133	7.062	12.158	27.27	C
ATOM	1440	O	TYR	A1230	−9.575	7.242	13.318	28.05	O
ATOM	1441	N	ASP	A1231	−9.672	6.224	11.281	27.51	N
ATOM	1442	CA	ASP	A1231	−10.722	5.291	11.618	27.33	C
ATOM	1443	CB	ASP	A1231	−11.113	4.53	10.355	28.35	C
ATOM	1444	CG	ASP	A1231	−12.533	3.939	10.428	30.8	C
ATOM	1445	OD1	ASP	A1231	−12.904	3.368	11.506	27.15	O
ATOM	1446	OD2	ASP	A1231	−13.254	4.051	9.374	32.11	O
ATOM	1447	C	ASP	A1231	−10.189	4.316	12.672	26.73	C
ATOM	1448	O	ASP	A1231	−9.124	3.73	12.492	26.31	O
ATOM	1449	N	LYS	A1232	−10.921	4.162	13.772	26.23	N
ATOM	1450	CA	LYS	A1232	−10.512	3.29	14.858	26.77	C
ATOM	1451	CB	LYS	A1232	−11.386	3.552	16.076	27.66	C
ATOM	1452	CG	LYS	A1232	−12.866	3.335	15.895	29.64	C
ATOM	1453	CD	LYS	A1232	−13.584	3.778	17.234	33.88	C
ATOM	1454	CE	LYS	A1232	−15.158	3.919	17.075	37.98	C
ATOM	1455	NZ	LYS	A1232	−15.727	5.229	17.684	37.47	N
ATOM	1456	C	LYS	A1232	−10.572	1.803	14.483	26.25	C
ATOM	1457	O	LYS	A1232	−10.143	0.931	15.234	25.01	O
ATOM	1458	N	GLU	A1233	−11.11	1.547	13.299	25.77	N
ATOM	1459	CA	GLU	A1233	−11.279	0.232	12.787	25.68	C
ATOM	1460	CB	GLU	A1233	−12.34	0.277	11.688	26.68	C
ATOM	1461	CG	GLU	A1233	−13.789	−0.168	12.099	33.83	C
ATOM	1462	CD	GLU	A1233	−14.499	0.709	13.208	42.96	C
ATOM	1463	OE1	GLU	A1233	−14.86	0.117	14.302	42.59	O
ATOM	1464	OE2	GLU	A1233	−14.717	1.954	12.977	42.71	O
ATOM	1465	C	GLU	A1233	−9.963	−0.242	12.227	24.54	C
ATOM	1466	O	GLU	A1233	−9.769	−1.414	12.19	24.6	O
ATOM	1467	N	TYR	A1234	−9.048	0.655	11.801	23.56	N
ATOM	1468	CA	TYR	A1234	−7.777	0.205	11.19	22.08	C
ATOM	1469	CB	TYR	A1234	−7.554	0.688	9.75	24.83	C
ATOM	1470	CG	TYR	A1234	−8.779	0.596	8.908	27.05	C
ATOM	1471	CD1	TYR	A1234	−9.405	1.764	8.447	32.67	C
ATOM	1472	CE1	TYR	A1234	−10.59	1.71	7.702	34.74	C
ATOM	1473	CD2	TYR	A1234	−9.363	−0.637	8.628	28.02	C
ATOM	1474	CE2	TYR	A1234	−10.562	−0.729	7.895	30.43	C
ATOM	1475	CZ	TYR	A1234	−11.173	0.445	7.448	33.92	C
ATOM	1476	OH	TYR	A1234	−12.348	0.376	6.709	35.91	O
ATOM	1477	C	TYR	A1234	−6.604	0.532	12.054	19.79	C
ATOM	1478	O	TYR	A1234	−5.57	−0.125	11.991	19.58	O
ATOM	1479	N	TYR	A1235	−6.787	1.532	12.906	17.81	N
ATOM	1480	CA	TYR	A1235	−5.682	1.997	13.724	14.18	C
ATOM	1481	CB	TYR	A1235	−5.331	3.388	13.366	13.99	C
ATOM	1482	CG	TYR	A1235	−5.008	3.583	11.916	12.91	C
ATOM	1483	CD1	TYR	A1235	−3.681	3.405	11.449	8.54	C
ATOM	1484	CE1	TYR	A1235	−3.357	3.532	10.153	6.16	C
ATOM	1485	CD2	TYR	A1235	−6.053	3.895	10.984	12.53	C
ATOM	1486	CE2	TYR	A1235	−5.743	4.111	9.651	14.2	C
ATOM	1487	CZ	TYR	A1235	−4.38	3.917	9.229	14.55	C
ATOM	1488	OH	TYR	A1235	−4.077	4.129	7.868	15.24	O
ATOM	1489	C	TYR	A1235	−5.972	1.952	15.171	13.04	C
ATOM	1490	O	TYR	A1235	−7.039	2.27	15.597	12.41	O
ATOM	1491	N	SER	A1236	−4.999	1.454	15.887	12.87	N
ATOM	1492	CA	SER	A1236	−4.921	1.538	17.288	13.9	C
ATOM	1493	CB	SER	A1236	−4.209	0.295	17.817	13.75	C
ATOM	1494	OG	SER	A1236	−5.074	−0.828	17.649	14.05	O
ATOM	1495	C	SER	A1236	−4.083	2.768	17.579	15.02	C
ATOM	1496	O	SER	A1236	−3.273	3.238	16.72	13.02	O
ATOM	1497	N	VAL	A1237	−4.271	3.257	18.8	15.2	N
ATOM	1498	CA	VAL	A1237	−3.669	4.477	19.233	15.62	C
ATOM	1499	CB	VAL	A1237	−4.713	5.574	19.68	16.92	C
ATOM	1500	CG1	VAL	A1237	−3.991	6.947	19.977	14.81	C
ATOM	1501	CG2	VAL	A1237	−5.918	5.75	18.643	14.15	C
ATOM	1502	C	VAL	A1237	−2.757	4.186	20.391	17.2	C
ATOM	1503	O	VAL	A1237	−3.164	3.555	21.401	17.99	O
ATOM	1504	N	HIS	A1238	−1.532	4.675	20.285	16.58	N
ATOM	1505	CA	HIS	A1238	−0.63	4.538	21.372	16.6	C
ATOM	1506	CB	HIS	A1238	0.79	4.641	20.897	14.86	C
ATOM	1507	CG	HIS	A1238	1.781	4.197	21.91	18.5	C
ATOM	1508	CD2	HIS	A1238	2.607	3.122	21.943	22.35	C
ATOM	1509	ND1	HIS	A1238	2.023	4.899	23.075	21.05	N
ATOM	1510	CE1	HIS	A1238	2.961	4.28	23.78	23.43	C
ATOM	1511	NE2	HIS	A1238	3.336	3.197	23.116	23.63	N
ATOM	1512	C	HIS	A1238	−0.941	5.544	22.475	17.59	C
ATOM	1513	O	HIS	A1238	−0.965	6.753	22.219	16.29	O
ATOM	1514	N	ASN	A1239	−1.161	5.013	23.705	19.38	N
ATOM	1515	CA	ASN	A1239	−1.566	5.784	24.887	20.91	C
ATOM	1516	CB	ASN	A1239	−1.67	4.904	26.147	19.93	C
ATOM	1517	CG	ASN	A1239	−2.929	4.038	26.166	18.41	C
ATOM	1518	OD1	ASN	A1239	−2.947	2.919	26.751	13.41	O
ATOM	1519	ND2	ASN	A1239	−3.987	4.536	25.513	13.83	N
ATOM	1520	C	ASN	A1239	−0.63	6.964	25.164	23.6	C
ATOM	1521	O	ASN	A1239	−1.11	8.123	25.292	24.04	O
ATOM	1522	N	LYS	A1240	0.679	6.679	25.225	25.19	N
ATOM	1523	CA	LYS	A1240	1.674	7.662	25.602	27.16	C
ATOM	1524	CB	LYS	A1240	2.949	6.948	25.947	27.24	C
ATOM	1525	CG	LYS	A1240	2.753	5.852	27.025	31.39	C
ATOM	1526	CD	LYS	A1240	2.092	6.44	28.311	33.31	C
ATOM	1527	CE	LYS	A1240	1.02	5.512	28.908	35.74	C
ATOM	1528	NZ	LYS	A1240	0.389	6.132	30.138	33.11	N
ATOM	1529	C	LYS	A1240	1.924	8.663	24.477	29.32	C
ATOM	1530	O	LYS	A1240	1.67	9.871	24.627	30.53	O
ATOM	1531	N	THR	A1241	2.43	8.188	23.337	29.79	N
ATOM	1532	CA	THR	A1241	2.509	9.073	22.222	29.89	C
ATOM	1533	CB	THR	A1241	3.467	8.616	21.201	30.25	C
ATOM	1534	OG1	THR	A1241	3.185	9.403	20.037	33.35	O
ATOM	1535	CG2	THR	A1241	3.344	7.112	20.901	28.34	C
ATOM	1536	C	THR	A1241	1.096	9.212	21.643	30.22	C
ATOM	1537	O	THR	A1241	0.134	9.339	22.39	32.12	O
ATOM	1538	N	GLY	A1242	0.921	9.192	20.345	27.97	N
ATOM	1539	CA	GLY	A1242	−0.442	9.02	19.841	25.59	C
ATOM	1540	C	GLY	A1242	−0.261	8.357	18.492	23.61	C
ATOM	1541	O	GLY	A1242	−1.07	8.496	17.614	23.73	O
ATOM	1542	N	ALA	A1243	0.859	7.673	18.364	22.33	N
ATOM	1543	CA	ALA	A1243	1.246	6.956	17.18	21.48	C
ATOM	1544	CB	ALA	A1243	2.497	6.121	17.461	19.16	C
ATOM	1545	C	ALA	A1243	0.044	6.081	16.798	20.06	C
ATOM	1546	O	ALA	A1243	−0.532	5.452	17.648	18.79	O
ATOM	1547	N	LYS	A1244	−0.377	6.218	15.54	19.98	N
ATOM	1548	CA	LYS	A1244	−1.313	5.355	14.829	20.6	C
ATOM	1549	CB	LYS	A1244	−1.695	5.942	13.468	21.8	C
ATOM	1550	CG	LYS	A1244	−2.614	7.095	13.557	24.9	C
ATOM	1551	CD	LYS	A1244	−2.3	7.965	14.744	29.39	C
ATOM	1552	CE	LYS	A1244	−3.596	8.051	15.56	37.57	C
ATOM	1553	NZ	LYS	A1244	−4.284	6.676	15.714	36.7	N
ATOM	1554	C	LYS	A1244	−0.646	4.085	14.508	19.2	C
ATOM	1555	O	LYS	A1244	0.49	4.124	14.123	19.11	O
ATOM	1556	N	LEU	A1245	−1.368	2.966	14.627	18.63	N
ATOM	1557	CA	LEU	A1245	−0.791	1.644	14.347	17.18	C
ATOM	1558	CB	LEU	A1245	−0.369	0.954	15.664	16.59	C
ATOM	1559	CG	LEU	A1245	0.56	1.802	16.567	19.65	C
ATOM	1560	CD1	LEU	A1245	0.157	1.66	18.01	17.13	C
ATOM	1561	CD2	LEU	A1245	2.037	1.413	16.357	21.7	C
ATOM	1562	C	LEU	A1245	−1.757	0.774	13.587	14.78	C
ATOM	1563	O	LEU	A1245	−2.652	0.238	14.189	15	O
ATOM	1564	N	PRO	A1246	−1.545	0.587	12.279	13.51	N
ATOM	1565	CD	PRO	A1246	−0.403	1.159	11.572	14.89	C
ATOM	1566	CA	PRO	A1246	−2.353	−0.239	11.366	13.3	C
ATOM	1567	CB	PRO	A1246	−1.767	0.072	9.956	12.09	C
ATOM	1568	CG	PRO	A1246	−0.694	0.867	10.104	11.81	C
ATOM	1569	C	PRO	A1246	−2.172	−1.735	11.687	13.12	C
ATOM	1570	O	PRO	A1246	−1.721	−2.584	10.83	12.05	O
ATOM	1571	N	VAL	A1247	−2.472	−2.017	12.935	11.59	N
ATOM	1572	CA	VAL	A1247	−2.334	−3.363	13.565	12.32	C
ATOM	1573	CB	VAL	A1247	−3.255	−3.391	14.805	10.84	C
ATOM	1574	CG1	VAL	A1247	−3.524	−4.818	15.249	15.86	C
ATOM	1575	CG2	VAL	A1247	−2.617	−2.612	15.917	6.8	C
ATOM	1576	C	VAL	A1247	−2.446	−4.663	12.667	11.2	C
ATOM	1577	O	VAL	A1247	−1.546	−5.488	12.665	11.23	O
ATOM	1578	N	LYS	A1248	−3.525	−4.804	11.918	10.8	N
ATOM	1579	CA	LYS	A1248	−3.743	−5.957	11.027	12.03	C
ATOM	1580	CB	LYS	A1248	−5.177	−5.964	10.572	13.05	C
ATOM	1581	CG	LYS	A1248	−6.152	−5.331	11.58	19.76	C
ATOM	1582	CD	LYS	A1248	−7.062	−6.387	12.249	23.58	C
ATOM	1583	CE	LYS	A1248	−8.534	−5.932	12.134	30.55	C
ATOM	1584	NZ	LYS	A1248	−9.463	−6.69	13.084	34.02	N
ATOM	1585	C	LYS	A1248	−2.883	−6.023	9.745	10.65	C
ATOM	1586	O	LYS	A1248	−2.959	−6.994	8.999	9.86	O
ATOM	1587	N	TRP	A1249	−2.086	−4.981	9.491	10.31	N
ATOM	1588	CA	TRP	A1249	−1.18	−4.913	8.351	8.47	C
ATOM	1589	CB	TRP	A1249	−1.359	−3.605	7.607	8.12	C
ATOM	1590	CG	TRP	A1249	−2.504	−3.633	6.747	7.42	C
ATOM	1591	CD2	TRP	A1249	−3.871	−3.47	7.156	5.46	C
ATOM	1592	CE2	TRP	A1249	−4.665	−3.607	5.983	5.77	C
ATOM	1593	CE3	TRP	A1249	−4.494	−3.162	8.381	6	C
ATOM	1594	CD1	TRP	A1249	−2.526	−3.943	5.372	4.82	C
ATOM	1595	NE1	TRP	A1249	−3.811	−3.91	4.929	5.43	N
ATOM	1596	CZ2	TRP	A1249	−6.098	−3.459	6.001	6.63	C
ATOM	1597	CZ3	TRP	A1249	−5.928	−2.947	8.392	4.82	C
ATOM	1598	CH2	TRP	A1249	−6.698	−3.109	7.2	7.88	C
ATOM	1599	C	TRP	A1249	0.225	−5.008	8.863	8.81	C
ATOM	1600	O	TRP	A1249	1.186	−5.191	8.069	8.2	O
ATOM	1601	N	MET	A1250	0.346	−4.956	10.201	9.07	N
ATOM	1602	CA	MET	A1250	1.668	−4.953	10.821	10.3	C
ATOM	1603	CB	MET	A1250	1.62	−4.238	12.155	8.96	C
ATOM	1604	CG	MET	A1250	1.667	−2.721	12.005	10.76	C
ATOM	1605	SD	MET	A1250	1.131	−1.902	13.583	11.56	S
ATOM	1606	CE	MET	A1250	2.534	−2.069	14.536	12.6	C
ATOM	1607	C	MET	A1250	2.295	−6.361	10.962	12.06	C
ATOM	1608	O	MET	A1250	1.611	−7.327	11.333	11.13	O
ATOM	1609	N	ALA	A1251	3.614	−6.434	10.703	13.83	N
ATOM	1610	CA	ALA	A1251	4.46	−7.603	11.026	14.52	C
ATOM	1611	CB	ALA	A1251	5.94	−7.409	10.539	11.9	C
ATOM	1612	C	ALA	A1251	4.402	−7.944	12.522	16.24	C
ATOM	1613	O	ALA	A1251	4.346	−7.052	13.376	16.66	O
ATOM	1614	N	LEU	A1252	4.438	−9.232	12.86	18.73	N
ATOM	1615	CA	LEU	A1252	4.276	−9.537	14.27	21.52	C
ATOM	1616	CB	LEU	A1252	3.851	−10.996	14.594	21.72	C
ATOM	1617	CG	LEU	A1252	4.851	−12.116	14.433	23.21	C
ATOM	1618	CD1	LEU	A1252	5.321	−12.497	15.742	28.6	C
ATOM	1619	CD2	LEU	A1252	4.261	−13.324	13.792	24.47	C
ATOM	1620	C	LEU	A1252	5.478	−9.077	15.042	21.57	C
ATOM	1621	O	LEU	A1252	5.406	−8.936	16.224	23.8	O
ATOM	1622	N	GLU	A1253	6.569	−8.764	14.386	22.36	N
ATOM	1623	CA	GLU	A1253	7.621	−8.143	15.118	23.04	C
ATOM	1624	CB	GLU	A1253	9.001	−8.442	14.545	22.64	C
ATOM	1625	CG	GLU	A1253	9.349	−7.787	13.254	25.77	C
ATOM	1626	CD	GLU	A1253	8.924	−8.608	12.003	31.65	C
ATOM	1627	OE1	GLU	A1253	8.158	−9.631	12.111	30.46	O
ATOM	1628	OE2	GLU	A1253	9.38	−8.206	10.895	34.18	O
ATOM	1629	C	GLU	A1253	7.37	−6.682	15.304	24.06	C
ATOM	1630	O	GLU	A1253	7.937	−6.101	16.209	25.96	O
ATOM	1631	N	SER	A1254	6.544	−6.048	14.464	25.72	N
ATOM	1632	CA	SER	A1254	6.234	−4.615	14.679	26.4	C
ATOM	1633	CB	SER	A1254	5.766	−3.88	13.427	25.25	C
ATOM	1634	OG	SER	A1254	6.77	−3.938	12.44	25.06	O
ATOM	1635	C	SER	A1254	5.177	−4.542	15.769	27.38	C
ATOM	1636	O	SER	A1254	5.149	−3.604	16.568	26.76	O
ATOM	1637	N	LEU	A1255	4.311	−5.555	15.81	28.96	N
ATOM	1638	CA	LEU	A1255	3.313	−5.671	16.904	30.09	C
ATOM	1639	CB	LEU	A1255	2.445	−6.892	16.682	28.19	C
ATOM	1640	CG	LEU	A1255	1.457	−6.67	15.571	25.9	C
ATOM	1641	CD1	LEU	A1255	0.648	−7.916	15.545	21.2	C
ATOM	1642	CD2	LEU	A1255	0.623	−5.462	15.862	22.34	C
ATOM	1643	C	LEU	A1255	4.029	−5.854	18.256	31.71	C
ATOM	1644	O	LEU	A1255	3.438	−5.765	19.341	32.56	O
ATOM	1645	N	GLN	A1256	5.315	−6.125	18.161	32.58	N
ATOM	1646	CA	GLN	A1256	6.02	−6.599	19.279	34.23	C
ATOM	1647	CB	GLN	A1256	6.598	−7.935	18.872	34.77	C
ATOM	1648	CG	GLN	A1256	6.603	−9.017	19.89	37.62	C
ATOM	1649	CD	GLN	A1256	6.165	−10.365	19.269	41.02	C
ATOM	1650	OE1	GLN	A1256	4.976	−10.64	19.236	42.75	O
ATOM	1651	NE2	GLN	A1256	7.116	−11.184	18.775	39.8	N
ATOM	1652	C	GLN	A1256	7.164	−5.65	19.573	33.79	C
ATOM	1653	O	GLN	A1256	8.044	−5.999	20.347	35.8	O
ATOM	1654	N	THR	A1257	7.218	−4.49	18.945	32.41	N
ATOM	1655	CA	THR	A1257	8.397	−3.635	19.143	31.17	C
ATOM	1656	CB	THR	A1257	9.718	−4.095	18.392	31.52	C
ATOM	1657	OG1	THR	A1257	9.638	−3.809	16.969	30.13	O
ATOM	1658	CG2	THR	A1257	10.112	−5.605	18.665	30.26	C
ATOM	1659	C	THR	A1257	8.147	−2.263	18.645	30.43	C
ATOM	1660	O	THR	A1257	8.877	−1.356	19.008	30.95	O
ATOM	1661	N	GLN	A1258	7.193	−2.138	17.734	29.57	N
ATOM	1662	CA	GLN	A1258	6.735	−0.853	17.219	30.28	C
ATOM	1663	CB	GLN	A1258	6.459	0.13	18.384	31.08	C
ATOM	1664	CG	GLN	A1258	5.144	0.893	18.275	33.11	C
ATOM	1665	CD	GLN	A1258	5.061	2.095	19.274	33.27	C
ATOM	1666	OE1	GLN	A1258	5.397	1.939	20.463	39.41	O
ATOM	1667	NE2	GLN	A1258	4.584	3.27	18.798	29.74	N
ATOM	1668	C	GLN	A1258	7.729	−0.263	16.224	28.93	C
ATOM	1669	O	GLN	A1258	7.637	0.916	15.872	29.28	O
ATOM	1670	N	LYS	A1259	8.64	−1.096	15.742	28.14	N
ATOM	1671	CA	LYS	A1259	9.582	−0.677	14.701	28.14	C
ATOM	1672	CB	LYS	A1259	11.05	−0.984	15.129	30.57	C
ATOM	1673	CG	LYS	A1259	11.648	0.003	16.193	31.76	C
ATOM	1674	CD	LYS	A1259	12.782	−0.73	16.978	32.91	C
ATOM	1675	CE	LYS	A1259	13.536	0.295	17.915	37.06	C
ATOM	1676	NZ	LYS	A1259	14.494	−0.291	18.924	32.88	N
ATOM	1677	C	LYS	A1259	9.293	−1.259	13.316	24.48	C
ATOM	1678	O	LYS	A1259	8.873	−2.411	13.2	21.83	O
ATOM	1679	N	PHE	A1260	9.596	−0.455	12.288	21.57	N
ATOM	1680	CA	PHE	A1260	9.234	−0.778	10.91	19.9	C
ATOM	1681	CB	PHE	A1260	8.242	0.249	10.37	18.27	C
ATOM	1682	CG	PHE	A1260	7	0.392	11.208	16.53	C
ATOM	1683	CD1	PHE	A1260	6.991	1.259	12.353	17.28	C
ATOM	1684	CD2	PHE	A1260	5.851	−0.336	10.909	14.62	C
ATOM	1685	CE1	PHE	A1260	5.874	1.39	13.158	14.55	C
ATOM	1686	CE2	PHE	A1260	4.706	−0.221	11.702	16.06	C
ATOM	1687	CZ	PHE	A1260	4.698	0.646	12.807	18.96	C
ATOM	1688	C	PHE	A1260	10.446	−0.912	9.984	20.79	C
ATOM	1689	O	PHE	A1260	11.497	−0.282	10.19	22.74	O
ATOM	1690	N	THR	A1261	10.319	−1.739	8.958	19.25	N
ATOM	1691	CA	THR	A1261	11.369	−1.894	7.99	17.76	C
ATOM	1692	CB	THR	A1261	12.358	−3.043	8.369	18.7	C
ATOM	1693	OG1	THR	A1261	11.668	−4.302	8.396	18.46	O
ATOM	1694	CG2	THR	A1261	13	−2.793	9.746	19.38	C
ATOM	1695	C	THR	A1261	10.726	−2.181	6.637	16.24	C
ATOM	1696	O	THR	A1261	9.519	−2.344	6.549	15.68	O
ATOM	1697	N	THR	A1262	11.542	−2.225	5.581	13.6	N
ATOM	1698	CA	THR	A1262	11.063	−2.608	4.321	12.49	C
ATOM	1699	CB	THR	A1262	12.175	−2.541	3.221	14.06	C
ATOM	1700	OG1	THR	A1262	12.656	−1.212	3.086	11.22	O
ATOM	1701	CG2	THR	A1262	11.636	−2.914	1.843	14.36	C
ATOM	1702	C	THR	A1262	10.525	−3.996	4.475	11.49	C
ATOM	1703	O	THR	A1262	9.629	−4.349	3.817	11.81	O
ATOM	1704	N	LYS	A1263	11.132	−4.822	5.318	12.87	N
ATOM	1705	CA	LYS	A1263	10.597	−6.177	5.595	12.76	C
ATOM	1706	CB	LYS	A1263	11.604	−6.976	6.408	13.32	C
ATOM	1707	CG	LYS	A1263	12.832	−7.445	5.589	14.58	C
ATOM	1708	CD	LYS	A1263	12.449	−8.002	4.24	10.3	C
ATOM	1709	CE	LYS	A1263	13.641	−8.874	3.828	14.06	C
ATOM	1710	NZ	LYS	A1263	13.635	−9.233	2.408	10.78	N
ATOM	1711	C	LYS	A1263	9.235	−6.256	6.256	10.99	C
ATOM	1712	O	LYS	A1263	8.509	−7.228	6.056	10.11	O
ATOM	1713	N	SER	A1264	8.925	−5.263	7.076	10.36	N
ATOM	1714	CA	SER	A1264	7.575	−5.162	7.644	11.41	C
ATOM	1715	CB	SER	A1264	7.54	−4.346	8.93	11.47	C
ATOM	1716	OG	SER	A1264	7.752	−2.984	8.714	14.16	O
ATOM	1717	C	SER	A1264	6.633	−4.601	6.598	11.2	C
ATOM	1718	O	SER	A1264	5.43	−4.992	6.553	11.68	O
ATOM	1719	N	ASP	A1265	7.204	−3.819	5.679	9.67	N
ATOM	1720	CA	ASP	A1265	6.45	−3.364	4.538	11.37	C
ATOM	1721	CB	ASP	A1265	7.171	−2.28	3.753	10.45	C
ATOM	1722	CG	ASP	A1265	6.956	−0.879	4.332	14.18	C
ATOM	1723	OD1	ASP	A1265	7.593	0.032	3.753	14.77	O
ATOM	1724	OD2	ASP	A1265	6.163	−0.667	5.331	16.48	O
ATOM	1725	C	ASP	A1265	6.041	−4.533	3.618	11.53	C
ATOM	1726	O	ASP	A1265	4.944	−4.545	3.046	14.2	O
ATOM	1727	N	VAL	A1266	6.856	−5.549	3.576	10.63	N
ATOM	1728	CA	VAL	A1266	6.602	−6.704	2.752	11.03	C
ATOM	1729	CB	VAL	A1266	7.949	−7.558	2.57	10.66	C
ATOM	1730	CG1	VAL	A1266	7.661	−9.023	2.243	8.73	C
ATOM	1731	CG2	VAL	A1266	8.825	−6.919	1.505	8.25	C
ATOM	1732	C	VAL	A1266	5.475	−7.515	3.393	10.47	C
ATOM	1733	O	VAL	A1266	4.63	−8.017	2.669	12.51	O
ATOM	1734	N	TRP	A1267	5.455	−7.602	4.728	9.37	N
ATOM	1735	CA	TRP	A1267	4.375	−8.239	5.466	8.82	C
ATOM	1736	CB	TRP	A1267	4.633	−8.156	7	8.16	C
ATOM	1737	CG	TRP	A1267	3.559	−8.824	7.849	10.92	C
ATOM	1738	CD2	TRP	A1267	3.665	−10.046	8.612	9.89	C
ATOM	1739	CE2	TRP	A1267	2.394	−10.3	9.176	9.5	C
ATOM	1740	CE3	TRP	A1267	4.712	−10.904	8.911	8.75	C
ATOM	1741	CD1	TRP	A1267	2.232	−8.433	7.972	10.68	C
ATOM	1742	NE1	TRP	A1267	1.552	−9.29	8.779	6.35	N
ATOM	1743	CZ2	TRP	A1267	2.156	−11.378	10.068	8.31	C
ATOM	1744	CZ3	TRP	A1267	4.465	−11.994	9.747	10.23	C
ATOM	1745	CH2	TRP	A1267	3.187	−12.215	10.325	8.98	C
ATOM	1746	C	TRP	A1267	3.041	−7.557	5.104	8.67	C
ATOM	1747	O	TRP	A1267	2.055	−8.236	4.836	9.65	O
ATOM	1748	N	SER	A1268	3	−6.206	5.109	9.54	N
ATOM	1749	CA	SER	A1268	1.746	−5.456	4.795	7.78	C
ATOM	1750	CB	SER	A1268	1.913	−3.967	5.045	7.03	C
ATOM	1751	OG	SER	A1268	2.513	−3.772	6.256	8.59	O
ATOM	1752	C	SER	A1268	1.365	−5.634	3.342	7.8	C
ATOM	1753	O	SER	A1268	0.17	−5.677	3.001	7.51	O
ATOM	1754	N	PHE	A1269	2.387	−5.73	2.479	8.59	N
ATOM	1755	CA	PHE	A1269	2.169	−5.956	1.088	9.1	C
ATOM	1756	CB	PHE	A1269	3.473	−5.888	0.338	8.27	C
ATOM	1757	CG	PHE	A1269	3.314	−6.245	−1.096	8.45	C
ATOM	1758	CD1	PHE	A1269	2.619	−5.363	−1.972	9.17	C
ATOM	1759	CD2	PHE	A1269	3.719	−7.495	−1.559	8.51	C
ATOM	1760	CE1	PHE	A1269	2.369	−5.68	−3.271	7.04	C
ATOM	1761	CE2	PHE	A1269	3.495	−7.836	−2.88	8.56	C
ATOM	1762	CZ	PHE	A1269	2.784	−6.942	−3.728	9.89	C
ATOM	1763	C	PHE	A1269	1.442	−7.323	0.919	10.64	C
ATOM	1764	O	PHE	A1269	0.49	−7.477	0.111	11.13	O
ATOM	1765	N	GLY	A1270	1.857	−8.317	1.702	11.64	N
ATOM	1766	CA	GLY	A1270	1.14	−9.587	1.648	11.42	C
ATOM	1767	C	GLY	A1270	−0.332	−9.417	2.029	10.97	C
ATOM	1768	O	GLY	A1270	−1.199	−10.04	1.413	11.25	O
ATOM	1769	N	VAL	A1271	−0.613	−8.596	3.059	9.54	N
ATOM	1770	CA	VAL	A1271	−2.01	−8.356	3.569	8.57	C
ATOM	1771	CB	VAL	A1271	−2.033	−7.621	4.946	8.56	C
ATOM	1772	CG1	VAL	A1271	−3.47	−7.359	5.392	7	C
ATOM	1773	CG2	VAL	A1271	−1.271	−8.389	6.08	3.23	C
ATOM	1774	C	VAL	A1271	−2.833	−7.584	2.516	9.92	C
ATOM	1775	O	VAL	A1271	−4.001	−7.95	2.211	10.22	O
ATOM	1776	N	LEU	A1272	−2.175	−6.593	1.899	10.19	N
ATOM	1777	CA	LEU	A1272	−2.68	−5.873	0.716	11.37	C
ATOM	1778	CB	LEU	A1272	−1.764	−4.681	0.411	11.24	C
ATOM	1779	CG	LEU	A1272	−1.525	−3.908	−0.905	14.03	C
ATOM	1780	CD1	LEU	A1272	−2.293	−4.472	−2.089	13.62	C
ATOM	1781	CD2	LEU	A1272	−1.645	−2.378	−0.821	13.61	C
ATOM	1782	C	LEU	A1272	−3.038	−6.764	−0.501	11.35	C
ATOM	1783	O	LEU	A1272	−4.086	−6.613	−1.146	11.16	O
ATOM	1784	N	LEU	A1273	−2.208	−7.748	−0.75	10.97	N
ATOM	1785	CA	LEU	A1273	−2.507	−8.766	−1.748	10.03	C
ATOM	1786	CB	LEU	A1273	−1.341	−9.755	−1.831	9.71	C
ATOM	1787	CG	LEU	A1273	−0.17	−9.307	−2.652	12.95	C
ATOM	1788	CD1	LEU	A1273	0.852	−10.401	−2.848	13.19	C
ATOM	1789	CD2	LEU	A1273	−0.706	−8.847	−3.99	16.74	C
ATOM	1790	C	LEU	A1273	−3.716	−9.555	−1.395	8.67	C
ATOM	1791	O	LEU	A1273	−4.436	−9.945	−2.273	7.96	O
ATOM	1792	N	TRP	A1274	−3.86	−9.879	−0.092	9.8	N
ATOM	1793	CA	TRP	A1274	−5.031	−10.602	0.426	8.39	C
ATOM	1794	CB	TRP	A1274	−4.81	−11.063	1.856	7.65	C
ATOM	1795	CG	TRP	A1274	−5.841	−11.888	2.417	3.72	C
ATOM	1796	CD2	TRP	A1274	−7.005	−11.445	3.132	4.89	C
ATOM	1797	CE2	TRP	A1274	−7.731	−12.617	3.507	2	C
ATOM	1798	CE3	TRP	A1274	−7.48	−10.181	3.54	4.57	C
ATOM	1799	CD1	TRP	A1274	−5.909	−13.249	2.383	4.08	C
ATOM	1800	NE1	TRP	A1274	−7.037	−13.694	3.025	2.01	N
ATOM	1801	CZ2	TRP	A1274	−8.903	−12.574	4.242	2.67	C
ATOM	1802	CZ3	TRP	A1274	−8.727	−10.127	4.267	8.33	C
ATOM	1803	CH2	TRP	A1274	−9.417	−11.329	4.607	3.57	C
ATOM	1804	C	TRP	A1274	−6.228	−9.715	0.277	9.2	C
ATOM	1805	O	TRP	A1274	−7.31	−10.183	−0.178	10.85	O
ATOM	1806	N	GLU	A1275	−6.053	−8.426	0.596	9.74	N
ATOM	1807	CA	GLU	A1275	−7.159	−7.458	0.406	10.36	C
ATOM	1808	CB	GLU	A1275	−6.761	−6.009	0.771	9.95	C
ATOM	1809	CG	GLU	A1275	−6.544	−5.683	2.246	11	C
ATOM	1810	CD	GLU	A1275	−6.205	−4.183	2.392	12.14	C
ATOM	1811	OE1	GLU	A1275	−5.043	−3.754	2.104	12.7	O
ATOM	1812	OE2	GLU	A1275	−7.131	−3.392	2.7	11.37	O
ATOM	1813	C	GLU	A1275	−7.61	−7.445	−1.028	10.04	C
ATOM	1814	O	GLU	A1275	−8.794	−7.315	−1.306	10.34	O
ATOM	1815	N	LEU	A1276	−6.641	−7.421	−1.934	11.02	N
ATOM	1816	CA	LEU	A1276	−6.883	−7.423	−3.355	11.94	C
ATOM	1817	CB	LEU	A1276	−5.549	−7.374	−4.068	11.7	C
ATOM	1818	CG	LEU	A1276	−5.098	−6.161	−4.878	13.84	C
ATOM	1819	CD1	LEU	A1276	−5.77	−4.882	−4.59	15.07	C
ATOM	1820	CD2	LEU	A1276	−3.588	−6.017	−4.794	14.8	C
ATOM	1821	C	LEU	A1276	−7.649	−8.691	−3.79	12.76	C
ATOM	1822	O	LEU	A1276	−8.688	−8.584	−4.439	14.11	O
ATOM	1823	N	MET	A1277	−7.181	−9.872	−3.387	12.53	N
ATOM	1824	CA	MET	A1277	−7.783	−11.114	−3.844	13.7	C
ATOM	1825	CB	MET	A1277	−6.838	−12.32	−3.715	11.99	C
ATOM	1826	CG	MET	A1277	−5.573	−12.151	−4.52	16.79	C
ATOM	1827	SD	MET	A1277	−5.667	−11.426	−6.22	25.77	S
ATOM	1828	CE	MET	A1277	−6.432	−12.816	−7.071	17.04	C
ATOM	1829	C	MET	A1277	−9.1	−11.424	−3.185	14.22	C
ATOM	1830	O	MET	A1277	−9.877	−12.227	−3.727	15.37	O
ATOM	1831	N	THR	A1278	−9.345	−10.845	−2.007	14.32	N
ATOM	1832	CA	THR	A1278	−10.683	−10.929	−1.389	12.59	C
ATOM	1833	CB	THR	A1278	−10.597	−10.94	0.12	13.16	C
ATOM	1834	OG1	THR	A1278	−10.167	−9.64	0.627	9.42	O
ATOM	1835	CG2	THR	A1278	−9.611	−12.04	0.543	8.23	C
ATOM	1836	C	THR	A1278	−11.582	−9.779	−1.809	13.58	C
ATOM	1837	O	THR	A1278	−12.71	−9.661	−1.286	14.22	O
ATOM	1838	N	ARG	A1279	−11.094	−8.931	−2.726	12.97	N
ATOM	1839	CA	ARG	A1279	−11.853	−7.804	−3.23	15.57	C
ATOM	1840	CB	ARG	A1279	−13.12	−8.298	−3.949	14.48	C
ATOM	1841	CG	ARG	A1279	−13.201	−7.815	−5.354	20.35	C
ATOM	1842	CD	ARG	A1279	−14.28	−8.526	−6.25	20.34	C
ATOM	1843	NE	ARG	A1279	−13.757	−9.783	−6.773	27.23	N
ATOM	1844	CZ	ARG	A1279	−13.268	−10.03	−8.019	29.48	C
ATOM	1845	NH1	ARG	A1279	−13.237	−9.082	−8.967	19.95	N
ATOM	1846	NH2	ARG	A1279	−12.773	−11.281	−8.296	29.36	N
ATOM	1847	C	ARG	A1279	−12.252	−6.851	−2.08	15.31	C
ATOM	1848	O	ARG	A1279	−13.412	−6.454	−1.997	16.43	O
ATOM	1849	N	GLY	A1280	−11.316	−6.472	−1.202	14.52	N
ATOM	1850	CA	GLY	A1280	−11.607	−5.431	−0.235	14.65	C
ATOM	1851	C	GLY	A1280	−12.149	−5.991	1.088	15.17	C
ATOM	1852	O	GLY	A1280	−12.617	−5.233	1.934	13.6	O
ATOM	1853	N	ALA	A1281	−12.066	−7.311	1.31	14.02	N
ATOM	1854	CA	ALA	A1281	−12.479	−7.784	2.644	14.68	C
ATOM	1855	CB	ALA	A1281	−12.698	−9.349	2.709	13.99	C
ATOM	1856	C	ALA	A1281	−11.512	−7.29	3.732	14.17	C
ATOM	1857	O	ALA	A1281	−10.291	−7.095	3.428	13.46	O
ATOM	1858	N	PRO	A1282	−12.025	−7.152	4.989	13.83	N
ATOM	1859	CD	PRO	A1282	−13.426	−7.463	5.268	15.14	C
ATOM	1860	CA	PRO	A1282	−11.327	−6.761	6.233	15.61	C
ATOM	1861	CB	PRO	A1282	−12.477	−6.518	7.241	16.49	C
ATOM	1862	CG	PRO	A1282	−13.805	−6.384	6.27	16.92	C
ATOM	1863	C	PRO	A1282	−10.542	−7.972	6.721	16.94	C
ATOM	1864	O	PRO	A1282	−11.135	−9.035	6.958	17.36	O
ATOM	1865	N	PRO	A1283	−9.212	−7.829	6.868	17.68	N
ATOM	1866	CD	PRO	A1283	−8.431	−6.615	6.538	17.72	C
ATOM	1867	CA	PRO	A1283	−8.407	−8.909	7.458	17.23	C
ATOM	1868	CB	PRO	A1283	−6.978	−8.369	7.397	17.46	C
ATOM	1869	CG	PRO	A1283	−7.01	−6.992	6.83	17.37	C
ATOM	1870	C	PRO	A1283	−8.809	−9.139	8.924	17.48	C
ATOM	1871	O	PRO	A1283	−9.079	−8.155	9.671	17.71	O
ATOM	1872	N	TYR	A1284	−8.86	−10.402	9.336	16.72	N
ATOM	1873	CA	TYR	A1284	−9.106	−10.759	10.742	17.3	C
ATOM	1874	CB	TYR	A1284	−7.938	−10.382	11.624	16.01	C
ATOM	1875	CG	TYR	A1284	−6.551	−10.698	11.111	17.42	C
ATOM	1876	CD1	TYR	A1284	−5.946	−11.957	11.312	15.84	C
ATOM	1877	CE1	TYR	A1284	−4.631	−12.201	10.876	14.8	C
ATOM	1878	CD2	TYR	A1284	−5.809	−9.724	10.468	16.16	C
ATOM	1879	CE2	TYR	A1284	−4.539	−9.98	10.008	16.45	C
ATOM	1880	CZ	TYR	A1284	−3.932	−11.185	10.22	16.76	C
ATOM	1881	OH	TYR	A1284	−2.656	−11.326	9.687	16.71	O
ATOM	1882	C	TYR	A1284	−10.342	−10.136	11.365	18.43	C
ATOM	1883	O	TYR	A1284	−10.225	−9.475	12.388	18.85	O
ATOM	1884	N	PRO	A1285	−11.519	−10.319	10.758	20.37	N
ATOM	1885	CD	PRO	A1285	−11.84	−11.196	9.635	20.13	C
ATOM	1886	CA	PRO	A1285	−12.689	−9.555	11.184	23.29	C
ATOM	1887	CB	PRO	A1285	−13.739	−9.907	10.135	22.39	C
ATOM	1888	CG	PRO	A1285	−13.326	−11.24	9.66	21.13	C
ATOM	1889	C	PRO	A1285	−13.166	−9.872	12.61	26.8	C
ATOM	1890	O	PRO	A1285	−13.433	−8.936	13.408	25.99	O
ATOM	1891	N	ASP	A1286	−13.265	−11.154	12.972	30.65	N
ATOM	1892	CA	ASP	A1286	−13.848	−11.408	14.323	35.35	C
ATOM	1893	CB	ASP	A1286	−14.553	−12.807	14.453	37.22	C
ATOM	1894	CG	ASP	A1286	−15.524	−13.112	13.255	43.19	C
ATOM	1895	OD1	ASP	A1286	−14.994	−13.477	12.169	46.45	O
ATOM	1896	OD2	ASP	A1286	−16.782	−12.965	13.391	46.26	O
ATOM	1897	C	ASP	A1286	−12.895	−11.155	15.535	35.1	C
ATOM	1898	O	ASP	A1286	−13.065	−11.858	16.549	36.23	O
ATOM	1899	N	VAL	A1287	−11.959	−10.172	15.481	32.52	N
ATOM	1900	CA	VAL	A1287	−10.802	−10.275	16.39	29.97	C
ATOM	1901	CB	VAL	A1287	−9.744	−11.371	15.935	29.53	C
ATOM	1902	CG1	VAL	A1287	−9.59	−11.36	14.514	30.14	C
ATOM	1903	CG2	VAL	A1287	−8.408	−11.176	16.544	30.07	C
ATOM	1904	C	VAL	A1287	−10.145	−9.032	16.83	28.88	C
ATOM	1905	O	VAL	A1287	−9.891	−8.145	16.02	29.31	O
ATOM	1906	N	ASN	A1288	−9.858	−8.968	18.137	26.64	N
ATOM	1907	CA	ASN	A1288	−9.176	−7.828	18.689	24.13	C
ATOM	1908	CB	ASN	A1288	−9.554	−7.638	20.164	25	C
ATOM	1909	CG	ASN	A1288	−9.045	−8.774	21.085	25.21	C
ATOM	1910	OD1	ASN	A1288	−7.878	−9.281	20.965	21.19	O
ATOM	1911	ND2	ASN	A1288	−9.928	−9.165	22.048	22.42	N
ATOM	1912	C	ASN	A1288	−7.678	−7.882	18.51	23.31	C
ATOM	1913	O	ASN	A1288	−7.145	−8.852	18.011	22.44	O
ATOM	1914	N	THR	A1289	−7.008	−6.829	18.966	23.16	N
ATOM	1915	CA	THR	A1289	−5.58	−6.648	18.82	22.72	C
ATOM	1916	CB	THR	A1289	−5.102	−5.234	19.26	23.85	C
ATOM	1917	OG1	THR	A1289	−5.823	−4.741	20.416	26.46	O
ATOM	1918	CG2	THR	A1289	−5.304	−4.207	18.143	25.64	C
ATOM	1919	C	THR	A1289	−4.739	−7.686	19.517	22.02	C
ATOM	1920	O	THR	A1289	−3.619	−8.007	19.065	23	O
ATOM	1921	N	PHE	A1290	−5.251	−8.222	20.614	20.54	N
ATOM	1922	CA	PHE	A1290	−4.486	−9.215	21.359	19.45	C
ATOM	1923	CB	PHE	A1290	−4.935	−9.309	22.861	19.8	C
ATOM	1924	CG	PHE	A1290	−4.062	−10.269	23.708	18.62	C
ATOM	1925	CD1	PHE	A1290	−2.808	−9.855	24.201	16.3	C
ATOM	1926	CD2	PHE	A1290	−4.466	−11.598	23.931	20.15	C
ATOM	1927	CE1	PHE	A1290	−1.999	−10.702	24.984	19.55	C
ATOM	1928	CE2	PHE	A1290	−3.661	−12.486	24.692	18.86	C
ATOM	1929	CZ	PHE	A1290	−2.404	−12.053	25.206	20.06	C
ATOM	1930	C	PHE	A1290	−4.587	−10.609	20.684	18.03	C
ATOM	1931	O	PHE	A1290	−3.605	−11.325	20.562	16.43	O
ATOM	1932	N	ASP	A1291	−5.793	−10.996	20.303	17.58	N
ATOM	1933	CA	ASP	A1291	−5.964	−12.302	19.726	19.32	C
ATOM	1934	CB	ASP	A1291	−7.414	−12.688	19.644	18.53	C
ATOM	1935	CG	ASP	A1291	−8.056	−12.83	20.984	21.78	C
ATOM	1936	OD1	ASP	A1291	−7.39	−13.29	21.98	19.49	O
ATOM	1937	OD2	ASP	A1291	−9.277	−12.483	21.039	24.79	O
ATOM	1938	C	ASP	A1291	−5.301	−12.414	18.338	20.96	C
ATOM	1939	O	ASP	A1291	−4.776	−13.486	17.993	21.73	O
ATOM	1940	N	ILE	A1292	−5.313	−11.32	17.569	20.88	N
ATOM	1941	CA	ILE	A1292	−4.576	−11.26	16.303	21.43	C
ATOM	1942	CB	ILE	A1292	−4.718	−9.857	15.559	20.9	C
ATOM	1943	CG2	ILE	A1292	−3.601	−9.658	14.6	22.73	C
ATOM	1944	CG1	ILE	A1292	−5.981	−9.858	14.679	22.1	C
ATOM	1945	CD1	ILE	A1292	−6.854	−8.575	14.742	27.9	C
ATOM	1946	C	ILE	A1292	−3.153	−11.697	16.529	20.67	C
ATOM	1947	O	ILE	A1292	−2.569	−12.403	15.728	21.89	O
ATOM	1948	N	THR	A1293	−2.591	−11.277	17.633	20.67	N
ATOM	1949	CA	THR	A1293	−1.187	−11.53	17.92	21.87	C
ATOM	1950	CB	THR	A1293	−0.769	−10.598	19.089	22.47	C
ATOM	1951	OG1	THR	A1293	−0.81	−9.23	18.606	25.62	O
ATOM	1952	CG2	THR	A1293	0.571	−10.944	19.614	20.56	C
ATOM	1953	C	THR	A1293	−0.949	−13.006	18.292	22.24	C
ATOM	1954	O	THR	A1293	0.01	−13.642	17.844	22.94	O
ATOM	1955	N	VAL	A1294	−1.844	−13.548	19.105	22.43	N
ATOM	1956	CA	VAL	A1294	−1.887	−14.965	19.401	22.79	C
ATOM	1957	CB	VAL	A1294	−3.039	−15.316	20.484	24.33	C
ATOM	1958	CG1	VAL	A1294	−2.905	−16.703	20.93	21.06	C
ATOM	1959	CG2	VAL	A1294	−3.012	−14.34	21.698	22.9	C
ATOM	1960	C	VAL	A1294	−2.137	−15.775	18.156	22.04	C
ATOM	1961	O	VAL	A1294	−1.472	−16.737	17.979	23.52	O
ATOM	1962	N	TYR	A1295	−3.127	−15.42	17.336	21.11	N
ATOM	1963	CA	TYR	A1295	−3.378	−16.062	16.036	21.27	C
ATOM	1964	CB	TYR	A1295	−4.387	−15.233	15.215	21.55	C
ATOM	1965	CG	TYR	A1295	−4.827	−15.809	13.847	22.76	C
ATOM	1966	CD1	TYR	A1295	−5.852	−16.772	13.788	24.13	C
ATOM	1967	CE1	TYR	A1295	−6.251	−17.347	12.586	22.48	C
ATOM	1968	CD2	TYR	A1295	−4.24	−15.406	12.639	18.86	C
ATOM	1969	CE2	TYR	A1295	−4.647	−15.975	11.44	19.4	C
ATOM	1970	CZ	TYR	A1295	−5.662	−16.957	11.412	22	C
ATOM	1971	OH	TYR	A1295	−6.157	−17.572	10.245	15.34	O
ATOM	1972	C	TYR	A1295	−2.05	−16.149	15.285	21.71	C
ATOM	1973	O	TYR	A1295	−1.72	−17.214	14.76	23.7	O
ATOM	1974	N	LEU	A1296	−1.278	−15.061	15.253	20.06	N
ATOM	1975	CA	LEU	A1296	−0.1	−15.031	14.463	19.72	C
ATOM	1976	CB	LEU	A1296	0.315	−13.583	14.173	18.7	C
ATOM	1977	CG	LEU	A1296	−0.563	−12.717	13.227	17.29	C
ATOM	1978	CD1	LEU	A1296	−0.108	−11.231	13.155	14.74	C
ATOM	1979	CD2	LEU	A1296	−0.67	−13.32	11.866	13.27	C
ATOM	1980	C	LEU	A1296	1.069	−15.809	15.034	21.48	C
ATOM	1981	O	LEU	A1296	1.891	−16.348	14.288	20.81	O
ATOM	1982	N	LEU	A1297	1.202	−15.8	16.367	23.54	N
ATOM	1983	CA	LEU	A1297	2.303	−16.527	17.031	23.91	C
ATOM	1984	CB	LEU	A1297	2.543	−16.042	18.472	23.89	C
ATOM	1985	CG	LEU	A1297	3.38	−14.752	18.474	27.22	C
ATOM	1986	CD1	LEU	A1297	3.407	−13.97	19.768	28.81	C
ATOM	1987	CD2	LEU	A1297	4.763	−15.022	18.017	31.47	C
ATOM	1988	C	LEU	A1297	2.053	−18.024	17.018	24.35	C
ATOM	1989	O	LEU	A1297	2.956	−18.785	17.371	26.26	O
ATOM	1990	N	GLN	A1298	0.865	−18.444	16.598	23.07	N
ATOM	1991	CA	GLN	A1298	0.509	−19.839	16.478	23.56	C
ATOM	1992	CB	GLN	A1298	−0.975	−20.019	16.765	23.4	C
ATOM	1993	CG	GLN	A1298	−1.185	−20.016	18.319	29.5	C
ATOM	1994	CD	GLN	A1298	−2.609	−20.215	18.746	33.61	C
ATOM	1995	OE1	GLN	A1298	−3.551	−19.932	17.988	33.3	O
ATOM	1996	NE2	GLN	A1298	−2.79	−20.662	20.004	36.42	N
ATOM	1997	C	GLN	A1298	0.813	−20.336	15.092	23.28	C
ATOM	1998	O	GLN	A1298	0.486	−21.504	14.767	23.77	O
ATOM	1999	N	GLY	A1299	1.427	−19.453	14.293	21.11	N
ATOM	2000	CA	GLY	A1299	1.761	−19.705	12.913	19.57	C
ATOM	2001	C	GLY	A1299	0.552	−19.613	11.985	19.57	C
ATOM	2002	O	GLY	A1299	0.69	−19.848	10.779	19.65	O
ATOM	2003	N	ARG	A1300	−0.642	−19.294	12.519	17.34	N
ATOM	2004	CA	ARG	A1300	−1.791	−19.147	11.663	15.11	C
ATOM	2005	CB	ARG	A1300	−3.068	−19.072	12.496	15.35	C
ATOM	2006	CG	ARG	A1300	−3.227	−20.162	13.511	17.32	C
ATOM	2007	CD	ARG	A1300	−4.385	−19.878	14.443	19	C
ATOM	2008	NE	ARG	A1300	−5.495	−20.632	13.951	26.17	N
ATOM	2009	CZ	ARG	A1300	−5.943	−21.75	14.51	26.18	C
ATOM	2010	NH1	ARG	A1300	−5.407	−22.226	15.639	26.4	N
ATOM	2011	NH2	ARG	A1300	−6.947	−22.383	13.935	28.78	N
ATOM	2012	C	ARG	A1300	−1.625	−17.896	10.789	13.95	C
ATOM	2013	O	ARG	A1300	−0.906	−16.952	11.167	11.48	O
ATOM	2014	N	ARG	A1301	−2.292	−17.914	9.62	12.59	N
ATOM	2015	CA	ARG	A1301	−2.296	−16.803	8.679	10.68	C
ATOM	2016	CB	ARG	A1301	−1.227	−17.008	7.66	9.76	C
ATOM	2017	CG	ARG	A1301	0.201	−17.075	8.265	9.66	C
ATOM	2018	CD	ARG	A1301	0.732	−15.697	8.706	10.28	C
ATOM	2019	NE	ARG	A1301	2.117	−15.7	9.169	7.99	N
ATOM	2020	CZ	ARG	A1301	2.433	−16.002	10.423	11.74	C
ATOM	2021	NH1	ARG	A1301	1.466	−16.398	11.307	6.97	N
ATOM	2022	NH2	ARG	A1301	3.713	−15.986	10.777	11.06	N
ATOM	2023	C	ARG	A1301	−3.668	−16.6	8.022	11.29	C
ATOM	2024	O	ARG	A1301	−4.596	−17.417	8.188	10.02	O
ATOM	2025	N	LEU	A1302	−3.83	−15.488	7.303	11.13	N
ATOM	2026	CA	LEU	A1302	−5.106	−15.197	6.609	10.8	C
ATOM	2027	CB	LEU	A1302	−5.014	−13.85	5.963	9.1	C
ATOM	2028	CG	LEU	A1302	−4.833	−12.681	6.864	6.48	C
ATOM	2029	CD1	LEU	A1302	−4.307	−11.511	6.008	9.35	C
ATOM	2030	CD2	LEU	A1302	−6.153	−12.358	7.484	4.82	C
ATOM	2031	C	LEU	A1302	−5.312	−16.286	5.57	12.1	C
ATOM	2032	O	LEU	A1302	−4.346	−16.769	5.013	13.45	O
ATOM	2033	N	LEU	A1303	−6.537	−16.737	5.331	14.81	N
ATOM	2034	CA	LEU	A1303	−6.711	−18	4.542	15.67	C
ATOM	2035	CB	LEU	A1303	−8.023	−18.684	4.826	14.95	C
ATOM	2036	CG	LEU	A1303	−8.178	−19.581	6.054	18.31	C
ATOM	2037	CD1	LEU	A1303	−6.996	−19.498	6.984	20.03	C
ATOM	2038	CD2	LEU	A1303	−9.492	−19.163	6.791	15.76	C
ATOM	2039	C	LEU	A1303	−6.66	−17.616	3.1	16.46	C
ATOM	2040	O	LEU	A1303	−6.816	−16.433	2.806	17.16	O
ATOM	2041	N	GLN	A1304	−6.44	−18.594	2.224	16.59	N
ATOM	2042	CA	GLN	A1304	−6.3	−18.347	0.838	16.9	C
ATOM	2043	CB	GLN	A1304	−5.86	−19.567	0.157	15.65	C
ATOM	2044	CG	GLN	A1304	−5.653	−19.308	−1.266	15.99	C
ATOM	2045	CD	GLN	A1304	−5.059	−20.498	−2.033	18.57	C
ATOM	2046	OE1	GLN	A1304	−4.449	−21.434	−1.479	14.91	O
ATOM	2047	NE2	GLN	A1304	−5.186	−20.415	−3.343	19.66	N
ATOM	2048	C	GLN	A1304	−7.665	−17.96	0.305	20.07	C
ATOM	2049	O	GLN	A1304	−8.661	−18.688	0.48	21.65	O
ATOM	2050	N	PRO	A1305	−7.758	−16.779	−0.303	20.86	N
ATOM	2051	CD	PRO	A1305	−6.779	−15.677	−0.48	21.62	C
ATOM	2052	CA	PRO	A1305	−9.075	−16.464	−0.792	21.48	C
ATOM	2053	CB	PRO	A1305	−8.959	−14.995	−1.167	20.75	C
ATOM	2054	CG	PRO	A1305	−7.643	−14.505	−0.558	21.05	C
ATOM	2055	C	PRO	A1305	−9.462	−17.375	−1.955	23.17	C
ATOM	2056	O	PRO	A1305	−8.602	−18.053	−2.505	22.48	O
ATOM	2057	N	GLU	A1306	−10.761	−17.436	−2.283	26	N
ATOM	2058	CA	GLU	A1306	−11.26	−18.192	−3.458	28.18	C
ATOM	2059	CB	GLU	A1306	−12.763	−18.089	−3.506	29.06	C
ATOM	2060	CG	GLU	A1306	−13.503	−19.357	−3.241	32.62	C
ATOM	2061	CD	GLU	A1306	−15.012	−19.072	−3.204	38.95	C
ATOM	2062	OE1	GLU	A1306	−15.586	−18.781	−4.279	38.36	O
ATOM	2063	OE2	GLU	A1306	−15.613	−19.109	−2.096	42.58	O
ATOM	2064	C	GLU	A1306	−10.727	−17.481	−4.699	29.17	C
ATOM	2065	O	GLU	A1306	−10.623	−16.223	−4.716	28.95	O
ATOM	2066	N	TYR	A1307	−10.373	−18.239	−5.733	29.22	N
ATOM	2067	CA	TYR	A1307	−9.876	−17.566	−6.982	29.91	C
ATOM	2068	CB	TYR	A1307	−10.817	−16.438	−7.467	31.22	C
ATOM	2069	CG	TYR	A1307	−12.238	−16.847	−7.415	34.72	C
ATOM	2070	CD1	TYR	A1307	−12.651	−17.996	−8.093	37.5	C
ATOM	2071	CE1	TYR	A1307	−13.982	−18.423	−8.057	37.34	C
ATOM	2072	CD2	TYR	A1307	−13.183	−16.105	−6.674	37.26	C
ATOM	2073	CE2	TYR	A1307	−14.515	−16.517	−6.635	38.36	C
ATOM	2074	CZ	TYR	A1307	−14.896	−17.692	−7.347	37.41	C
ATOM	2075	OH	TYR	A1307	−16.196	−18.158	−7.348	37.73	O
ATOM	2076	C	TYR	A1307	−8.469	−16.946	−6.918	27.27	C
ATOM	2077	O	TYR	A1307	−8.005	−16.415	−7.922	28.16	O
ATOM	2078	N	CYS	A1308	−7.836	−16.986	−5.76	24.33	N
ATOM	2079	CA	CYS	A1308	−6.448	−16.581	−5.609	22.31	C
ATOM	2080	CB	CYS	A1308	−6.179	−16.264	−4.155	21.21	C
ATOM	2081	SG	CYS	A1308	−4.524	−15.866	−3.835	21.98	S
ATOM	2082	C	CYS	A1308	−5.63	−17.792	−5.972	21.69	C
ATOM	2083	O	CYS	A1308	−5.657	−18.776	−5.197	21.71	O
ATOM	2084	N	PRO	A1309	−4.895	−17.737	−7.136	20.38	N
ATOM	2085	CD	PRO	A1309	−4.914	−16.66	−8.151	20.39	C
ATOM	2086	CA	PRO	A1309	−3.952	−18.758	−7.524	18.95	C
ATOM	2087	CB	PRO	A1309	−3.177	−18.102	−8.703	18.71	C
ATOM	2088	CG	PRO	A1309	−3.54	−16.76	−8.732	21.17	C
ATOM	2089	C	PRO	A1309	−2.999	−19.167	−6.393	17.95	C
ATOM	2090	O	PRO	A1309	−2.449	−18.309	−5.682	16.25	O
ATOM	2091	N	ASP	A1310	−2.831	−20.485	−6.258	17.69	N
ATOM	2092	CA	ASP	A1310	−1.936	−21.129	−5.289	18.08	C
ATOM	2093	CB	ASP	A1310	−1.805	−22.64	−5.628	17.94	C
ATOM	2094	CG	ASP	A1310	−3.062	−23.451	−5.251	26.79	C
ATOM	2095	OD1	ASP	A1310	−4.071	−22.782	−4.899	31.89	O
ATOM	2096	OD2	ASP	A1310	−3.076	−24.745	−5.262	29.15	O
ATOM	2097	C	ASP	A1310	−0.53	−20.464	−5.191	17.75	C
ATOM	2098	O	ASP	A1310	−0.043	−20.203	−4.067	18.85	O
ATOM	2099	N	PRO	A1311	0.177	−20.268	−6.356	17.25	N
ATOM	2100	CD	PRO	A1311	−0.102	−20.803	−7.725	16.88	C
ATOM	2101	CA	PRO	A1311	1.465	−19.559	−6.343	15.19	C
ATOM	2102	CB	PRO	A1311	1.82	−19.434	−7.84	13.7	C
ATOM	2103	CG	PRO	A1311	1.293	−20.726	−8.404	14.93	C
ATOM	2104	C	PRO	A1311	1.351	−18.218	−5.741	15.13	C
ATOM	2105	O	PRO	A1311	2.274	−17.853	−5.016	15.93	O
ATOM	2106	N	LEU	A1312	0.248	−17.498	−5.99	13.68	N
ATOM	2107	CA	LEU	A1312	0.124	−16.184	−5.399	14.9	C
ATOM	2108	CB	LEU	A1312	−1.102	−15.427	−5.875	15.12	C
ATOM	2109	CG	LEU	A1312	−1.007	−13.901	−6.065	16.16	C
ATOM	2110	CD1	LEU	A1312	−2.415	−13.27	−6.038	17.09	C
ATOM	2111	CD2	LEU	A1312	−0.203	−13.323	−5.007	22.34	C
ATOM	2112	C	LEU	A1312	0.05	−16.301	−3.88	15.48	C
ATOM	2113	O	LEU	A1312	0.695	−15.523	−3.154	14.57	O
ATOM	2114	N	TYR	A1313	−0.724	−17.288	−3.406	15.42	N
ATOM	2115	CA	TYR	A1313	−0.859	−17.479	−1.998	15.15	C
ATOM	2116	CB	TYR	A1313	−1.893	−18.528	−1.643	15.52	C
ATOM	2117	CG	TYR	A1313	−2.23	−18.548	−0.145	16.45	C
ATOM	2118	CD1	TYR	A1313	−2.56	−17.358	0.54	15.64	C
ATOM	2119	CE1	TYR	A1313	−2.936	−17.372	1.926	16.19	C
ATOM	2120	CD2	TYR	A1313	−2.212	−19.754	0.591	15.35	C
ATOM	2121	CE2	TYR	A1313	−2.591	−19.791	1.956	15.48	C
ATOM	2122	CZ	TYR	A1313	−2.936	−18.585	2.613	17.43	C
ATOM	2123	OH	TYR	A1313	−3.289	−18.608	3.927	14.53	O
ATOM	2124	C	TYR	A1313	0.474	−17.838	−1.447	15.35	C
ATOM	2125	O	TYR	A1313	0.814	−17.353	−0.375	14.4	O
ATOM	2126	N	GLU	A1314	1.256	−18.633	−2.188	15.71	N
ATOM	2127	CA	GLU	A1314	2.582	−18.991	−1.697	18.23	C
ATOM	2128	CB	GLU	A1314	3.388	−19.844	−2.715	18.61	C
ATOM	2129	CG	GLU	A1314	2.698	−21.155	−3.256	25.52	C
ATOM	2130	CD	GLU	A1314	3.287	−21.719	−4.675	29.14	C
ATOM	2131	OE1	GLU	A1314	4.453	−21.269	−5.127	32.9	O
ATOM	2132	OE2	GLU	A1314	2.545	−22.601	−5.337	34.86	O
ATOM	2133	C	GLU	A1314	3.328	−17.677	−1.454	15.23	C
ATOM	2134	O	GLU	A1314	4.172	−17.576	−0.566	14.59	O
ATOM	2135	N	VAL	A1315	3.088	−16.69	−2.301	13.92	N
ATOM	2136	CA	VAL	A1315	3.813	−15.431	−2.161	13.5	C
ATOM	2137	CB	VAL	A1315	3.785	−14.546	−3.475	14.69	C
ATOM	2138	CG1	VAL	A1315	4.069	−13.078	−3.177	14.19	C
ATOM	2139	CG2	VAL	A1315	4.77	−15.107	−4.591	12.06	C
ATOM	2140	C	VAL	A1315	3.327	−14.682	−0.917	12.08	C
ATOM	2141	O	VAL	A1315	4.137	−14.155	−0.228	10.73	O
ATOM	2142	N	MET	A1316	2.033	−14.671	−0.63	11.53	N
ATOM	2143	CA	MET	A1316	1.517	−13.987	0.538	13.7	C
ATOM	2144	CB	MET	A1316	−0.01	−13.976	0.634	12.56	C
ATOM	2145	CG	MET	A1316	−0.722	−13.524	−0.618	15.54	C
ATOM	2146	SD	MET	A1316	−2.547	−13.416	−0.347	20.85	S
ATOM	2147	CE	MET	A1316	−3.235	−14.193	−1.73	19.52	C
ATOM	2148	C	MET	A1316	2.079	−14.643	1.748	13.01	C
ATOM	2149	O	MET	A1316	2.561	−13.971	2.65	15.31	O
ATOM	2150	N	LEU	A1317	2.056	−15.963	1.801	12.31	N
ATOM	2151	CA	LEU	A1317	2.673	−16.625	2.935	11.49	C
ATOM	2152	CB	LEU	A1317	2.497	−18.127	2.873	9.86	C
ATOM	2153	CG	LEU	A1317	1.111	−18.695	2.882	7.48	C
ATOM	2154	CD1	LEU	A1317	1.176	−20.143	2.433	7.53	C
ATOM	2155	CD2	LEU	A1317	0.443	−18.515	4.217	3.61	C
ATOM	2156	C	LEU	A1317	4.115	−16.342	3.052	11.01	C
ATOM	2157	O	LEU	A1317	4.637	−16.294	4.137	14.42	O
ATOM	2158	N	LYS	A1318	4.837	−16.313	1.961	12.75	N
ATOM	2159	CA	LYS	A1318	6.254	−15.938	2.056	15.07	C
ATOM	2160	CB	LYS	A1318	6.876	−15.918	0.675	15.17	C
ATOM	2161	CG	LYS	A1318	7.096	−17.29	0.083	24.05	C
ATOM	2162	CD	LYS	A1318	8.157	−18.097	0.911	34.28	C
ATOM	2163	CE	LYS	A1318	9.463	−17.244	1.089	35.3	C
ATOM	2164	NZ	LYS	A1318	10.632	−18.122	0.888	37.08	N
ATOM	2165	C	LYS	A1318	6.414	−14.497	2.746	14.84	C
ATOM	2166	O	LYS	A1318	7.365	−14.269	3.513	15.47	O
ATOM	2167	N	CYS	A1319	5.472	−13.595	2.467	12.45	N
ATOM	2168	CA	CYS	A1319	5.395	−12.258	3.016	13.65	C
ATOM	2169	CB	CYS	A1319	4.184	−11.562	2.396	13.17	C
ATOM	2170	SG	CYS	A1319	4.626	−11.089	0.668	17.23	S
ATOM	2171	C	CYS	A1319	5.242	−12.206	4.498	11.7	C
ATOM	2172	O	CYS	A1319	5.657	−11.255	5.129	11.48	O
ATOM	2173	N	TRP	A1320	4.674	−13.272	5.038	11.74	N
ATOM	2174	CA	TRP	A1320	4.364	−13.378	6.418	11.21	C
ATOM	2175	CB	TRP	A1320	2.956	−13.816	6.577	10.12	C
ATOM	2176	CG	TRP	A1320	1.981	−12.93	5.933	8.99	C
ATOM	2177	CD2	TRP	A1320	0.794	−13.355	5.289	8.09	C
ATOM	2178	CE2	TRP	A1320	0.173	−12.196	4.77	6.13	C
ATOM	2179	CE3	TRP	A1320	0.152	−14.624	5.15	10.88	C
ATOM	2180	CD1	TRP	A1320	2.052	−11.549	5.778	7.31	C
ATOM	2181	NE1	TRP	A1320	0.971	−11.113	5.077	5.04	N
ATOM	2182	CZ2	TRP	A1320	−1.05	−12.246	4.139	5.59	C
ATOM	2183	CZ3	TRP	A1320	−1.066	−14.693	4.483	7.31	C
ATOM	2184	CH2	TRP	A1320	−1.641	−13.517	3.956	8.66	C
ATOM	2185	C	TRP	A1320	5.244	−14.353	7.147	13.67	C
ATOM	2186	O	TRP	A1320	4.827	−14.909	8.143	14.64	O
ATOM	2187	N	HIS	A1321	6.471	−14.547	6.666	15.52	N
ATOM	2188	CA	HIS	A1321	7.441	−15.283	7.387	15.52	C
ATOM	2189	CB	HIS	A1321	8.71	−15.494	6.566	15.45	C
ATOM	2190	CG	HIS	A1321	9.52	−16.676	7.019	19.13	C
ATOM	2191	CD2	HIS	A1321	9.627	−17.924	6.509	18.26	C
ATOM	2192	ND1	HIS	A1321	10.327	−16.649	8.147	17.94	N
ATOM	2193	CE1	HIS	A1321	10.873	−17.836	8.318	19.05	C
ATOM	2194	NE2	HIS	A1321	10.487	−18.617	7.323	21	N
ATOM	2195	C	HIS	A1321	7.723	−14.594	8.724	16.55	C
ATOM	2196	O	HIS	A1321	7.91	−13.367	8.798	14.69	O
ATOM	2197	N	PRO	A1322	7.719	−15.401	9.805	18.27	N
ATOM	2198	CD	PRO	A1322	7.45	−16.846	9.725	17.64	C
ATOM	2199	CA	PRO	A1322	8.004	−14.959	11.159	20.5	C
ATOM	2200	CB	PRO	A1322	8.069	−16.273	11.949	20.57	C
ATOM	2201	CG	PRO	A1322	7.257	−17.255	11.109	20.2	C
ATOM	2202	C	PRO	A1322	9.373	−14.272	11.183	22.28	C
ATOM	2203	O	PRO	A1322	9.553	−13.274	11.887	24.17	O
ATOM	2204	N	LYS	A1323	10.32	−14.818	10.441	23.53	N
ATOM	2205	CA	LYS	A1323	11.644	−14.265	10.317	26.14	C
ATOM	2206	CB	LYS	A1323	12.676	−15.384	10.057	26.85	C
ATOM	2207	CG	LYS	A1323	13.098	−16.183	11.289	32.8	C
ATOM	2208	CD	LYS	A1323	14.653	−16.203	11.372	40.5	C
ATOM	2209	CE	LYS	A1323	15.207	−14.739	11.543	40.83	C
ATOM	2210	NZ	LYS	A1323	16.672	−14.663	11.818	38.1	N
ATOM	2211	C	LYS	A1323	11.736	−13.231	9.224	26.02	C
ATOM	2212	O	LYS	A1323	11.931	−13.568	8.042	27.17	O
ATOM	2213	N	ALA	A1324	11.669	−11.973	9.63	27.03	N
ATOM	2214	CA	ALA	A1324	11.753	−10.83	8.711	27.52	C
ATOM	2215	CB	ALA	A1324	12.013	−9.546	9.448	27.19	C
ATOM	2216	C	ALA	A1324	12.743	−10.992	7.585	28.21	C
ATOM	2217	O	ALA	A1324	12.55	−10.353	6.541	29.23	O
ATOM	2218	N	GLU	A1325	13.758	−11.855	7.76	28.16	N
ATOM	2219	CA	GLU	A1325	14.848	−11.996	6.775	28.45	C
ATOM	2220	CB	GLU	A1325	16.188	−12.172	7.469	30.57	C
ATOM	2221	CG	GLU	A1325	16.132	−13.059	8.745	36.13	C
ATOM	2222	CD	GLU	A1325	17.211	−14.16	8.711	44.36	C
ATOM	2223	OE1	GLU	A1325	16.858	−15.364	8.463	44.39	O
ATOM	2224	OE2	GLU	A1325	18.411	−13.803	8.91	45.7	O
ATOM	2225	C	GLU	A1325	14.615	−13.104	5.73	26.67	C
ATOM	2226	O	GLU	A1325	15.22	−13.121	4.643	24.01	O
ATOM	2227	N	MET	A1326	13.683	−13.99	6.047	25.01	N
ATOM	2228	CA	MET	A1326	13.262	−14.975	5.077	24.44	C
ATOM	2229	CB	MET	A1326	12.799	−16.21	5.822	25.54	C
ATOM	2230	CG	MET	A1326	13.81	−16.689	6.838	30.66	C
ATOM	2231	SD	MET	A1326	15.391	−17.066	6.07	39.12	S
ATOM	2232	CE	MET	A1326	15.057	−18.795	5.656	38.1	C
ATOM	2233	C	MET	A1326	12.146	−14.455	4.17	22.62	C
ATOM	2234	O	MET	A1326	11.629	−15.161	3.301	22.3	O
ATOM	2235	N	ARG	A1327	11.718	−13.218	4.398	20.92	N
ATOM	2236	CA	ARG	A1327	10.72	−12.616	3.544	17.8	C
ATOM	2237	CB	ARG	A1327	10.117	−11.425	4.234	16.42	C
ATOM	2238	CG	ARG	A1327	9.313	−11.875	5.335	17.54	C
ATOM	2239	CD	ARG	A1327	8.503	−10.757	5.939	16.7	C
ATOM	2240	NE	ARG	A1327	8.293	−11.1	7.326	18.93	N
ATOM	2241	CZ	ARG	A1327	8.294	−10.232	8.337	12.34	C
ATOM	2242	NH1	ARG	A1327	8.497	−8.965	8.137	8.64	N
ATOM	2243	NH2	ARG	A1327	8.151	−10.678	9.537	12.79	N
ATOM	2244	C	ARG	A1327	11.36	−12.196	2.213	15.89	C
ATOM	2245	O	ARG	A1327	12.484	−11.73	2.175	14.94	O
ATOM	2246	N	PRO	A1328	10.609	−12.309	1.126	14.58	N
ATOM	2247	CD	PRO	A1328	9.266	−12.869	1.009	12.52	C
ATOM	2248	CA	PRO	A1328	11.167	−11.836	−0.146	13.78	C
ATOM	2249	CB	PRO	A1328	10.127	−12.248	−1.161	12.76	C
ATOM	2250	CG	PRO	A1328	8.86	−12.432	−0.349	15.33	C
ATOM	2251	C	PRO	A1328	11.328	−10.322	−0.181	14.39	C
ATOM	2252	O	PRO	A1328	10.566	−9.595	0.486	14.86	O
ATOM	2253	N	SER	A1329	12.302	−9.858	−0.972	14.35	N
ATOM	2254	CA	SER	A1329	12.494	−8.429	−1.282	14.19	C
ATOM	2255	CB	SER	A1329	13.904	−8.201	−1.891	13.44	C
ATOM	2256	OG	SER	A1329	13.89	−8.853	−3.18	15.17	O
ATOM	2257	C	SER	A1329	11.481	−8.011	−2.31	11.85	C
ATOM	2258	O	SER	A1329	11	−8.862	−3.097	14.08	O
ATOM	2259	N	PHE	A1330	11.222	−6.713	−2.389	10.58	N
ATOM	2260	CA	PHE	A1330	10.322	−6.24	−3.391	12.2	C
ATOM	2261	CB	PHE	A1330	9.996	−4.758	−3.212	11.92	C
ATOM	2262	CG	PHE	A1330	9.043	−4.493	−2.073	10.86	C
ATOM	2263	CD1	PHE	A1330	7.729	−4.902	−2.161	6	C
ATOM	2264	CD2	PHE	A1330	9.494	−3.884	−0.896	6.99	C
ATOM	2265	CE1	PHE	A1330	6.91	−4.709	−1.126	6.91	C
ATOM	2266	CE2	PHE	A1330	8.643	−3.633	0.136	9.1	C
ATOM	2267	CZ	PHE	A1330	7.349	−4.088	0.049	8.01	C
ATOM	2268	C	PHE	A1330	10.798	−6.542	−4.805	13.02	C
ATOM	2269	O	PHE	A1330	10	−6.6	−5.692	14.88	O
ATOM	2270	N	SER	A1331	12.086	−6.71	−5.022	14.67	N
ATOM	2271	CA	SER	A1331	12.609	−7.117	−6.325	16.24	C
ATOM	2272	CB	SER	A1331	14.109	−7.298	−6.207	17.17	C
ATOM	2273	OG	SER	A1331	14.734	−6.176	−6.688	18.61	O
ATOM	2274	C	SER	A1331	12.083	−8.473	−6.71	17.27	C
ATOM	2275	O	SER	A1331	11.591	−8.652	−7.857	18.02	O
ATOM	2276	N	GLU	A1332	12.201	−9.432	−5.777	17.22	N
ATOM	2277	CA	GLU	A1332	11.72	−10.756	−6.074	18.79	C
ATOM	2278	CB	GLU	A1332	12.302	−11.826	−5.205	19.77	C
ATOM	2279	CG	GLU	A1332	11.983	−13.29	−5.763	28.13	C
ATOM	2280	CD	GLU	A1332	12.543	−13.635	−7.25	32	C
ATOM	2281	OE1	GLU	A1332	12.099	−14.666	−7.872	28.88	O
ATOM	2282	OE2	GLU	A1332	13.401	−12.879	−7.778	32.58	O
ATOM	2283	C	GLU	A1332	10.214	−10.791	−6.033	18.26	C
ATOM	2284	O	GLU	A1332	9.584	−11.529	−6.828	18.92	O
ATOM	2285	N	LEU	A1333	9.602	−9.984	−5.174	16.87	N
ATOM	2286	CA	LEU	A1333	8.122	−9.956	−5.252	16.38	C
ATOM	2287	CB	LEU	A1333	7.522	−9.018	−4.227	16.3	C
ATOM	2288	CG	LEU	A1333	6.986	−9.505	−2.882	16.8	C
ATOM	2289	CD1	LEU	A1333	6.727	−11.004	−2.852	14.42	C
ATOM	2290	CD2	LEU	A1333	7.787	−9.07	−1.725	11.65	C
ATOM	2291	C	LEU	A1333	7.685	−9.55	−6.66	16	C
ATOM	2292	O	LEU	A1333	6.84	−10.217	−7.241	14.65	O
ATOM	2293	N	VAL	A1334	8.31	−8.508	−7.243	15.24	N
ATOM	2294	CA	VAL	A1334	7.993	−8.138	−8.648	14.36	C
ATOM	2295	CB	VAL	A1334	8.677	−6.82	−9.026	14.96	C
ATOM	2296	CG1	VAL	A1334	8.585	−6.5	−10.556	10.22	C
ATOM	2297	CG2	VAL	A1334	8.057	−5.675	−8.214	14.56	C
ATOM	2298	C	VAL	A1334	8.255	−9.218	−9.724	13.55	C
ATOM	2299	O	VAL	A1334	7.422	−9.446	−10.626	12.74	O
ATOM	2300	N	SER	A1335	9.399	−9.865	−9.634	13.77	N
ATOM	2301	CA	SER	A1335	9.72	−10.93	−10.566	14.73	C
ATOM	2302	CB	SER	A1335	11.063	−11.566	−10.217	14.19	C
ATOM	2303	OG	SER	A1335	12.091	−10.61	−10.426	16.15	O
ATOM	2304	C	SER	A1335	8.633	−11.994	−10.579	15.13	C
ATOM	2305	O	SER	A1335	8.096	−12.389	−11.628	14.15	O
ATOM	2306	N	ARG	A1336	8.282	−12.397	−9.376	15.11	N
ATOM	2307	CA	ARG	A1336	7.33	−13.462	−9.19	16.04	C
ATOM	2308	CB	ARG	A1336	7.326	−13.919	−7.745	15	C
ATOM	2309	CG	ARG	A1336	8.714	−14.435	−7.37	18.51	C
ATOM	2310	CD	ARG	A1336	8.656	−14.946	−5.887	31.61	C
ATOM	2311	NE	ARG	A1336	8.945	−16.391	−5.826	37.59	N
ATOM	2312	CZ	ARG	A1336	8.352	−17.326	−5.074	35.7	C
ATOM	2313	NH1	ARG	A1336	7.332	−17.055	−4.267	33.74	N
ATOM	2314	NH2	ARG	A1336	8.82	−18.576	−5.162	35.74	N
ATOM	2315	C	ARG	A1336	5.961	−13.09	−9.649	14.98	C
ATOM	2316	O	ARG	A1336	5.399	−13.775	−10.522	16.44	O
ATOM	2317	N	ILE	A1337	5.422	−12.005	−9.104	14.66	N
ATOM	2318	CA	ILE	A1337	4.113	−11.611	−9.481	16.19	C
ATOM	2319	CB	ILE	A1337	3.342	−10.739	−8.46	16.11	C
ATOM	2320	CG2	ILE	A1337	4.17	−9.721	−7.791	20.81	C
ATOM	2321	CG1	ILE	A1337	2.252	−9.97	−9.195	20.46	C
ATOM	2322	CD1	ILE	A1337	1.345	−9.167	−8.18	23.81	C
ATOM	2323	C	ILE	A1337	4.012	−11.191	−10.902	12.25	C
ATOM	2324	O	ILE	A1337	3.022	−11.435	−11.54	14.02	O
ATOM	2325	N	SER	A1338	5.028	−10.58	−11.446	11.38	N
ATOM	2326	CA	SER	A1338	5.013	−10.42	−12.924	10.49	C
ATOM	2327	CB	SER	A1338	6.354	−9.854	−13.388	10.85	C
ATOM	2328	OG	SER	A1338	6.152	−9.131	−14.566	10.54	O
ATOM	2329	C	SER	A1338	4.757	−11.755	−13.658	10	C
ATOM	2330	O	SER	A1338	4.007	−11.788	−14.661	10.17	O
ATOM	2331	N	ALA	A1339	5.416	−12.836	−13.207	8.72	N
ATOM	2332	CA	ALA	A1339	5.326	−14.152	−13.868	7.99	C
ATOM	2333	CB	ALA	A1339	6.29	−15.077	−13.294	5.14	C
ATOM	2334	C	ALA	A1339	3.925	−14.703	−13.758	9.66	C
ATOM	2335	O	ALA	A1339	3.353	−15.213	−14.736	9.27	O
ATOM	2336	N	ILE	A1340	3.359	−14.594	−12.542	11.06	N
ATOM	2337	CA	ILE	A1340	1.997	−14.976	−12.258	10.27	C
ATOM	2338	CB	ILE	A1340	1.733	−14.767	−10.76	10.82	C
ATOM	2339	CG2	ILE	A1340	0.282	−14.868	−10.418	8.31	C
ATOM	2340	CG1	ILE	A1340	2.558	−15.733	−9.91	10.31	C
ATOM	2341	CD1	ILE	A1340	2.557	−15.363	−8.468	8.49	C
ATOM	2342	C	ILE	A1340	1.016	−14.125	−13.086	11.55	C
ATOM	2343	O	ILE	A1340	0.04	−14.636	−13.667	12.6	O
ATOM	2344	N	PHE	A1341	1.239	−12.82	−13.094	11.83	N
ATOM	2345	CA	PHE	A1341	0.472	−11.93	−13.942	12.83	C
ATOM	2346	CB	PHE	A1341	0.933	−10.462	−13.794	11.93	C
ATOM	2347	CG	PHE	A1341	0.097	−9.488	−14.628	10.99	C
ATOM	2348	CD1	PHE	A1341	−1.227	−9.222	−14.264	7.52	C
ATOM	2349	CD2	PHE	A1341	0.627	−8.868	−15.775	8.04	C
ATOM	2350	CE1	PHE	A1341	−2.058	−8.307	−15.048	11.01	C
ATOM	2351	CE2	PHE	A1341	−0.177	−7.999	−16.562	11.88	C
ATOM	2352	CZ	PHE	A1341	−1.556	−7.711	−16.174	9.93	C
ATOM	2353	C	PHE	A1341	0.463	−12.325	−15.397	12.79	C
ATOM	2354	O	PHE	A1341	−0.587	−12.401	−15.997	14.47	O
ATOM	2355	N	SER	A1342	1.638	−12.488	−15.974	15.32	N
ATOM	2356	CA	SER	A1342	1.824	−12.793	−17.415	17.78	C
ATOM	2357	CB	SER	A1342	3.315	−12.827	−17.797	16.79	C
ATOM	2358	OG	SER	A1342	3.831	−11.526	−17.777	21.88	O
ATOM	2359	C	SER	A1342	1.264	−14.123	−17.826	18.08	C
ATOM	2360	O	SER	A1342	0.703	−14.274	−18.9	17.24	O
ATOM	2361	N	THR	A1343	1.455	−15.104	−16.971	19.94	N
ATOM	2362	CA	THR	A1343	1.061	−16.422	−17.358	22.37	C
ATOM	2363	CB	THR	A1343	2.005	−17.478	−16.806	21.44	C
ATOM	2364	OG1	THR	A1343	2.055	−17.379	−15.369	21.47	O
ATOM	2365	CG2	THR	A1343	3.42	−17.315	−17.408	20.58	C
ATOM	2366	C	THR	A1343	−0.371	−16.659	−16.921	25.51	C
ATOM	2367	O	THR	A1343	−0.857	−17.769	−17.004	26.88	O
ATOM	2368	N	PHE	A1344	−1.054	−15.641	−16.409	28.5	N
ATOM	2369	CA	PHE	A1344	−2.33	−15.953	−15.798	30.95	C
ATOM	2370	CB	PHE	A1344	−2.881	−14.847	−14.904	30.06	C
ATOM	2371	CG	PHE	A1344	−4.151	−15.235	−14.222	27	C
ATOM	2372	CD1	PHE	A1344	−4.119	−16.097	−13.114	24.24	C
ATOM	2373	CD2	PHE	A1344	−5.368	−14.795	−14.711	23.57	C
ATOM	2374	CE1	PHE	A1344	−5.268	−16.519	−12.49	25.54	C
ATOM	2375	CE2	PHE	A1344	−6.539	−15.163	−14.084	27.12	C
ATOM	2376	CZ	PHE	A1344	−6.52	−16.033	−12.955	27.52	C
ATOM	2377	C	PHE	A1344	−3.35	−16.303	−16.855	33.54	C
ATOM	2378	O	PHE	A1344	−3.642	−15.49	−17.717	34.12	O
ATOM	2379	N	ILE	A1345	−3.911	−17.508	−16.715	37.1	N
ATOM	2380	CA	ILE	A1345	−4.975	−18.047	−17.583	40.92	C
ATOM	2381	CB	ILE	A1345	−6.372	−17.424	−17.281	40.56	C
ATOM	2382	CG2	ILE	A1345	−7.344	−17.479	−18.492	43.36	C
ATOM	2383	CG1	ILE	A1345	−6.946	−18.152	−16.051	43.45	C
ATOM	2384	CD1	ILE	A1345	−6.095	−19.438	−15.574	42.93	C
ATOM	2385	C	ILE	A1345	−4.582	−18.074	−19.053	42.84	C
ATOM	2386	O	ILE	A1345	−4.93	−17.184	−19.846	43.44	O
ATOM	2387	N	GLY	A1346	−3.853	−19.135	−19.387	44.61	N
ATOM	2388	CA	GLY	A1346	−3.191	−19.289	−20.675	47.27	C
ATOM	2389	C	GLY	A1346	−1.718	−19.513	−20.354	49.35	C
ATOM	2390	O	GLY	A1346	−0.836	−18.874	−20.993	50.37	O
ATOM	2391	OXT	GLY	A1346	−1.376	−20.327	−19.436	49.81	O
ATOM	2392	CB	LEU	B1046	−19.47	−2.928	−35.925	40.32	C
ATOM	2393	CG	LEU	B1046	−19.758	−3.718	−34.616	42.01	C
ATOM	2394	CD1	LEU	B1046	−20.832	−2.953	−33.779	43.06	C
ATOM	2395	CD2	LEU	B1046	−20.105	−5.302	−34.77	43.57	C
ATOM	2396	C	LEU	B1046	−21.81	−3.071	−37.017	38.8	C
ATOM	2397	O	LEU	B1046	−22.337	−1.936	−36.888	38.58	O
ATOM	2398	N	LEU	B1046	−19.683	−2.665	−38.453	39.51	N
ATOM	2399	CA	LEU	B1046	−20.269	−3.271	−37.199	39.72	C
ATOM	2400	N	LEU	B1047	−22.5	−4.219	−37.024	36.75	N
ATOM	2401	CA	LEU	B1047	−23.938	−4.27	−37.208	35	C
ATOM	2402	CB	LEU	B1047	−24.394	−5.715	−37.47	35.39	C
ATOM	2403	CG	LEU	B1047	−23.713	−6.205	−38.741	35.87	C
ATOM	2404	CD1	LEU	B1047	−23.788	−7.735	−38.824	37.42	C
ATOM	2405	CD2	LEU	B1047	−24.313	−5.475	−39.975	37.06	C
ATOM	2406	C	LEU	B1047	−24.768	−3.645	−36.094	34.09	C
ATOM	2407	O	LEU	B1047	−25.941	−3.357	−36.318	34.1	O
ATOM	2408	N	GLN	B1048	−24.173	−3.443	−34.92	32.01	N
ATOM	2409	CA	GLN	B1048	−24.918	−2.908	−33.804	31.29	C
ATOM	2410	CB	GLN	B1048	−24.251	−3.227	−32.485	32.27	C
ATOM	2411	CG	GLN	B1048	−25.255	−3.176	−31.342	33.61	C
ATOM	2412	CD	GLN	B1048	−26.259	−4.273	−31.386	32.27	C
ATOM	2413	OE1	GLN	B1048	−27.227	−4.221	−30.635	33.78	O
ATOM	2414	NE2	GLN	B1048	−26.062	−5.279	−32.267	31.81	N
ATOM	2415	C	GLN	B1048	−25.025	−1.417	−33.875	29.15	C
ATOM	2416	O	GLN	B1048	−25.992	−0.848	−33.361	27.54	O
ATOM	2417	N	ASN	B1049	−24.017	−0.83	−34.532	26.05	N
ATOM	2418	CA	ASN	B1049	−23.931	0.576	−34.716	23.59	C
ATOM	2419	CB	ASN	B1049	−22.482	1.001	−34.97	24.38	C
ATOM	2420	CG	ASN	B1049	−21.622	0.973	−33.648	24.85	C
ATOM	2421	OD1	ASN	B1049	−22.107	1.324	−32.587	26.09	O
ATOM	2422	ND2	ASN	B1049	−20.402	0.522	−33.731	21.98	N
ATOM	2423	C	ASN	B1049	−24.868	1.003	−35.796	22.45	C
ATOM	2424	O	ASN	B1049	−24.841	2.144	−36.211	23.31	O
ATOM	2425	N	THR	B1050	−25.734	0.094	−36.206	20.21	N
ATOM	2426	CA	THR	B1050	−26.721	0.383	−37.195	20.27	C
ATOM	2427	CB	THR	B1050	−26.531	−0.463	−38.515	21.41	C
ATOM	2428	OG1	THR	B1050	−26.525	−1.886	−38.239	19.46	O
ATOM	2429	CG2	THR	B1050	−25.199	−0.064	−39.193	19.7	C
ATOM	2430	C	THR	B1050	−28.101	0.169	−36.592	20.15	C
ATOM	2431	O	THR	B1050	−29.095	0.325	−37.282	21.67	O
ATOM	2432	N	VAL	B1051	−28.179	−0.187	−35.313	18.2	N
ATOM	2433	CA	VAL	B1051	−29.469	−0.378	−34.68	16.02	C
ATOM	2434	CB	VAL	B1051	−29.476	−1.635	−33.802	15.07	C
ATOM	2435	CG1	VAL	B1051	−30.907	−1.929	−33.219	13	C
ATOM	2436	CG2	VAL	B1051	−28.978	−2.812	−34.622	14.4	C
ATOM	2437	C	VAL	B1051	−29.942	0.86	−33.933	15.78	C
ATOM	2438	O	VAL	B1051	−29.384	1.279	−32.964	16.31	O
ATOM	2439	N	HIS	B1052	−31.027	1.411	−34.394	16.59	N
ATOM	2440	CA	HIS	B1052	−31.618	2.529	−33.778	18.42	C
ATOM	2441	CB	HIS	B1052	−31.387	3.822	−34.557	18.24	C
ATOM	2442	CG	HIS	B1052	−32.216	4.963	−34.042	19.56	C
ATOM	2443	CD2	HIS	B1052	−33.382	5.5	−34.497	21.3	C
ATOM	2444	ND1	HIS	B1052	−31.871	5.688	−32.909	18.28	N
ATOM	2445	CE1	HIS	B1052	−32.789	6.613	−32.687	21.03	C
ATOM	2446	NE2	HIS	B1052	−33.717	6.522	−33.639	22.99	N
ATOM	2447	C	HIS	B1052	−33.121	2.309	−33.659	19.7	C
ATOM	2448	O	HIS	B1052	−33.795	2.169	−34.623	17.97	O
ATOM	2449	N	ILE	B1053	−33.613	2.326	−32.421	22.55	N
ATOM	2450	CA	ILE	B1053	−35.034	2.208	−32.114	23.12	C
ATOM	2451	CB	ILE	B1053	−35.285	0.984	−31.134	23.12	C
ATOM	2452	CG2	ILE	B1053	−36.733	0.925	−30.644	24.87	C
ATOM	2453	CG1	ILE	B1053	−35.093	−0.36	−31.88	25.79	C
ATOM	2454	CD1	ILE	B1053	−33.685	−0.82	−31.891	25.97	C
ATOM	2455	C	ILE	B1053	−35.501	3.595	−31.605	22.88	C
ATOM	2456	O	ILE	B1053	−34.884	4.229	−30.723	21.71	O
ATOM	2457	N	ASP	B1054	−36.547	4.089	−32.257	23.62	N
ATOM	2458	CA	ASP	B1054	−37.259	5.279	−31.796	22.76	C
ATOM	2459	CB	ASP	B1054	−37.853	6.041	−32.94	21.73	C
ATOM	2460	CG	ASP	B1054	−38.49	7.376	−32.487	25.42	C
ATOM	2461	OD1	ASP	B1054	−38.42	7.74	−31.259	22.46	O
ATOM	2462	OD2	ASP	B1054	−39.062	8.047	−33.389	24.97	O
ATOM	2463	C	ASP	B1054	−38.321	4.895	−30.767	22.65	C
ATOM	2464	O	ASP	B1054	−39.403	4.347	−31.071	21.94	O
ATOM	2465	N	LEU	B1055	−37.966	5.172	−29.529	22.61	N
ATOM	2466	CA	LEU	B1055	−38.7	4.625	−28.442	22.29	C
ATOM	2467	CB	LEU	B1055	−37.762	4.498	−27.224	22.09	C
ATOM	2468	CG	LEU	B1055	−36.525	3.601	−27.266	18	C
ATOM	2469	CD1	LEU	B1055	−35.705	4.088	−26.122	12.81	C
ATOM	2470	CD2	LEU	B1055	−36.869	2.13	−27.07	13.43	C
ATOM	2471	C	LEU	B1055	−39.982	5.424	−28.134	22.75	C
ATOM	2472	O	LEU	B1055	−40.843	4.978	−27.358	23.67	O
ATOM	2473	N	SER	B1056	−40.102	6.61	−28.713	22.3	N
ATOM	2474	CA	SER	B1056	−41.315	7.386	−28.546	22.63	C
ATOM	2475	CB	SER	B1056	−41.038	8.903	−28.703	22.8	C
ATOM	2476	OG	SER	B1056	−41.157	9.337	−30.088	27.69	O
ATOM	2477	C	SER	B1056	−42.349	6.877	−29.561	21.86	C
ATOM	2478	O	SER	B1056	−43.533	7.151	−29.427	21.84	O
ATOM	2479	N	ALA	B1057	−41.879	6.157	−30.584	20.99	N
ATOM	2480	CA	ALA	B1057	−42.734	5.647	−31.616	20.22	C
ATOM	2481	CB	ALA	B1057	−41.99	5.632	−32.978	18.95	C
ATOM	2482	C	ALA	B1057	−43.307	4.264	−31.229	21.18	C
ATOM	2483	O	ALA	B1057	−44.219	3.778	−31.926	20.6	O
ATOM	2484	N	ILE	B1058	−42.83	3.636	−30.124	21.64	N
ATOM	2485	CA	ILE	B1058	−43.436	2.342	−29.748	24.04	C
ATOM	2486	CB	ILE	B1058	−42.458	1.292	−28.981	25.07	C
ATOM	2487	CG2	ILE	B1058	−42.049	0.035	−29.832	24.86	C
ATOM	2488	CG1	ILE	B1058	−41.062	1.827	−28.705	27.45	C
ATOM	2489	CD1	ILE	B1058	−40.264	0.856	−27.838	24.61	C
ATOM	2490	C	ILE	B1058	−44.831	2.573	−29.065	24.88	C
ATOM	2491	O	ILE	B1058	−45.074	3.592	−28.422	23.85	O
ATOM	2492	N	ASP	B1059	−45.751	1.635	−29.243	25.65	N
ATOM	2493	CA	ASP	B1059	−47.12	1.761	−28.726	27.02	C
ATOM	2494	CB	ASP	B1059	−47.874	0.466	−29.066	27.56	C
ATOM	2495	CG	ASP	B1059	−49.325	0.485	−28.635	30.75	C
ATOM	2496	OD1	ASP	B1059	−49.705	1.293	−27.785	40.3	O
ATOM	2497	OD2	ASP	B1059	−50.123	−0.314	−29.14	31.86	O
ATOM	2498	C	ASP	B1059	−47.181	2.078	−27.208	26.95	C
ATOM	2499	O	ASP	B1059	−46.646	1.356	−26.4	26.36	O
ATOM	2500	N	PRO	B1060	−47.829	3.179	−26.83	27.49	N
ATOM	2501	CD	PRO	B1060	−48.573	4.133	−27.673	27.27	C
ATOM	2502	CA	PRO	B1060	−47.769	3.579	−25.41	28.26	C
ATOM	2503	CB	PRO	B1060	−48.521	4.909	−25.366	27.9	C
ATOM	2504	CG	PRO	B1060	−48.629	5.373	−26.822	28.06	C
ATOM	2505	C	PRO	B1060	−48.32	2.587	−24.385	29.45	C
ATOM	2506	O	PRO	B1060	−47.748	2.415	−23.307	30.22	O
ATOM	2507	N	GLU	B1061	−49.408	1.942	−24.706	30.74	N
ATOM	2508	CA	GLU	B1061	−49.959	0.958	−23.839	33.13	C
ATOM	2509	CB	GLU	B1061	−51.478	0.826	−24.17	34.78	C
ATOM	2510	CG	GLU	B1061	−51.864	−0.178	−25.282	40.8	C
ATOM	2511	CD	GLU	B1061	−52.775	0.432	−26.428	49.08	C
ATOM	2512	OE1	GLU	B1061	−52.827	1.704	−26.613	48.2	O
ATOM	2513	OE2	GLU	B1061	−53.38	−0.394	−27.2	48.8	O
ATOM	2514	C	GLU	B1061	−49.165	−0.372	−23.908	33.24	C
ATOM	2515	O	GLU	B1061	−49.181	−1.18	−22.979	34.27	O
ATOM	2516	N	LEU	B1062	−48.453	−0.62	−25.007	32.69	N
ATOM	2517	CA	LEU	B1062	−47.536	−1.766	−25.044	30.44	C
ATOM	2518	CB	LEU	B1062	−47.052	−2.023	−26.48	29.15	C
ATOM	2519	CG	LEU	B1062	−45.923	−2.999	−26.687	27.13	C
ATOM	2520	CD1	LEU	B1062	−46.297	−4.408	−26.216	31.15	C
ATOM	2521	CD2	LEU	B1062	−45.616	−3.05	−28.073	27.14	C
ATOM	2522	C	LEU	B1062	−46.37	−1.497	−24.1	30	C
ATOM	2523	O	LEU	B1062	−45.786	−2.41	−23.486	30.93	O
ATOM	2524	N	VAL	B1063	−46.038	−0.227	−23.992	29.06	N
ATOM	2525	CA	VAL	B1063	−44.925	0.206	−23.206	29	C
ATOM	2526	CB	VAL	B1063	−44.365	1.581	−23.717	29.34	C
ATOM	2527	CG1	VAL	B1063	−43.551	2.311	−22.617	29.44	C
ATOM	2528	CG2	VAL	B1063	−43.511	1.386	−24.988	28.58	C
ATOM	2529	C	VAL	B1063	−45.321	0.238	−21.745	29.41	C
ATOM	2530	O	VAL	B1063	−44.469	0.028	−20.86	30.22	O
ATOM	2531	N	GLN	B1064	−46.6	0.454	−21.467	29.08	N
ATOM	2532	CA	GLN	B1064	−47.005	0.512	−20.079	30.44	C
ATOM	2533	CB	GLN	B1064	−48.222	1.421	−19.809	30.98	C
ATOM	2534	CG	GLN	B1064	−49.62	0.775	−19.89	33.87	C
ATOM	2535	CD	GLN	B1064	−50.761	1.864	−19.961	35.5	C
ATOM	2536	OE1	GLN	B1064	−50.849	2.665	−20.92	36.93	O
ATOM	2537	NE2	GLN	B1064	−51.619	1.884	−18.929	38.37	N
ATOM	2538	C	GLN	B1064	−47.189	−0.853	−19.531	28.49	C
ATOM	2539	O	GLN	B1064	−46.973	−1.035	−18.366	29.12	O
ATOM	2540	N	ALA	B1065	−47.533	−1.823	−20.37	27.57	N
ATOM	2541	CA	ALA	B1065	−47.577	−3.233	−19.945	26.74	C
ATOM	2542	CB	ALA	B1065	−48.221	−4.172	−21.041	25.84	C
ATOM	2543	C	ALA	B1065	−46.183	−3.745	−19.532	25.79	C
ATOM	2544	O	ALA	B1065	−46.007	−4.275	−18.419	27.1	O
ATOM	2545	N	VAL	B1066	−45.179	−3.577	−20.408	24.07	N
ATOM	2546	CA	VAL	B1066	−43.793	−3.985	−20.037	20.35	C
ATOM	2547	CB	VAL	B1066	−42.881	−4.179	−21.255	19.59	C
ATOM	2548	CG1	VAL	B1066	−43.498	−5.217	−22.2	21.58	C
ATOM	2549	CG2	VAL	B1066	−42.557	−2.906	−21.898	16.39	C
ATOM	2550	C	VAL	B1066	−43.041	−3.122	−19.037	18.35	C
ATOM	2551	O	VAL	B1066	−42.011	−3.581	−18.522	15.66	O
ATOM	2552	N	GLN	B1067	−43.518	−1.892	−18.781	17.6	N
ATOM	2553	CA	GLN	B1067	−42.692	−0.943	−18.001	18.58	C
ATOM	2554	CB	GLN	B1067	−43.438	0.308	−17.614	19.35	C
ATOM	2555	CG	GLN	B1067	−42.496	1.426	−17.248	21.19	C
ATOM	2556	CD	GLN	B1067	−42.009	2.22	−18.529	28.66	C
ATOM	2557	OE1	GLN	B1067	−42.801	2.91	−19.19	34.61	O
ATOM	2558	NE2	GLN	B1067	−40.715	2.116	−18.857	29.45	N
ATOM	2559	C	GLN	B1067	−42.037	−1.527	−16.752	18.71	C
ATOM	2560	O	GLN	B1067	−40.856	−1.297	−16.503	18.11	O
ATOM	2561	N	HIS	B1068	−42.803	−2.315	−15.979	18.98	N
ATOM	2562	CA	HIS	B1068	−42.268	−2.956	−14.767	17.95	C
ATOM	2563	CB	HIS	B1068	−43.383	−3.675	−13.987	17.82	C
ATOM	2564	CG	HIS	B1068	−43.839	−4.954	−14.606	17.17	C
ATOM	2565	CD2	HIS	B1068	−43.713	−6.237	−14.176	14.13	C
ATOM	2566	ND1	HIS	B1068	−44.53	−5.009	−15.811	17.44	N
ATOM	2567	CE1	HIS	B1068	−44.793	−6.274	−16.089	13.01	C
ATOM	2568	NE2	HIS	B1068	−44.304	−7.033	−15.111	8.61	N
ATOM	2569	C	HIS	B1068	−41.102	−3.933	−15.002	18.08	C
ATOM	2570	O	HIS	B1068	−40.532	−4.395	−14.033	18.66	O
ATOM	2571	N	VAL	B1069	−40.726	−4.255	−16.243	16.48	N
ATOM	2572	CA	VAL	B1069	−39.549	−5.075	−16.433	16.15	C
ATOM	2573	CB	VAL	B1069	−39.863	−6.453	−17.109	16.83	C
ATOM	2574	CG1	VAL	B1069	−41.014	−7.1	−16.412	19.33	C
ATOM	2575	CG2	VAL	B1069	−40.229	−6.338	−18.559	14.34	C
ATOM	2576	C	VAL	B1069	−38.471	−4.345	−17.176	17.86	C
ATOM	2577	O	VAL	B1069	−37.419	−4.952	−17.516	16.09	O
ATOM	2578	N	VAL	B1070	−38.712	−3.044	−17.429	18.48	N
ATOM	2579	CA	VAL	B1070	−37.723	−2.234	−18.045	20.54	C
ATOM	2580	CB	VAL	B1070	−38.351	−1.049	−18.735	20.78	C
ATOM	2581	CG1	VAL	B1070	−37.268	0.109	−19.063	18.98	C
ATOM	2582	CG2	VAL	B1070	−39.005	−1.533	−19.984	18.5	C
ATOM	2583	C	VAL	B1070	−36.728	−1.82	−16.945	24.51	C
ATOM	2584	O	VAL	B1070	−37.163	−1.379	−15.872	24.82	O
ATOM	2585	N	ILE	B1071	−35.412	−1.965	−17.193	26.55	N
ATOM	2586	CA	ILE	B1071	−34.446	−1.77	−16.119	30.01	C
ATOM	2587	CB	ILE	B1071	−33.245	−2.653	−16.216	30.69	C
ATOM	2588	CG2	ILE	B1071	−32.383	−2.125	−17.338	33.43	C
ATOM	2589	CG1	ILE	B1071	−32.445	−2.495	−14.932	33.59	C
ATOM	2590	CD1	ILE	B1071	−31.103	−3.292	−14.886	40.65	C
ATOM	2591	C	ILE	B1071	−33.891	−0.359	−15.933	30.56	C
ATOM	2592	O	ILE	B1071	−33.696	0.101	−14.761	34.27	O
ATOM	2593	N	GLY	B1072	−33.597	0.356	−17.004	29.37	N
ATOM	2594	CA	GLY	B1072	−33.137	1.712	−16.772	26.85	C
ATOM	2595	C	GLY	B1072	−31.662	1.57	−16.679	26.99	C
ATOM	2596	O	GLY	B1072	−31.176	0.816	−15.851	25.3	O
ATOM	2597	N	PRO	B1073	−30.927	2.277	−17.567	27.71	N
ATOM	2598	CD	PRO	B1073	−31.427	3.359	−18.434	27.61	C
ATOM	2599	CA	PRO	B1073	−29.496	2.058	−17.766	27.02	C
ATOM	2600	CB	PRO	B1073	−29.153	3.005	−18.892	27.25	C
ATOM	2601	CG	PRO	B1073	−30.131	4.068	−18.823	28.49	C
ATOM	2602	C	PRO	B1073	−28.623	2.277	−16.545	27.4	C
ATOM	2603	O	PRO	B1073	−27.721	1.477	−16.282	29	O
ATOM	2604	N	SER	B1074	−28.896	3.3	−15.759	26.53	N
ATOM	2605	CA	SER	B1074	−28.106	3.497	−14.564	25.63	C
ATOM	2606	CB	SER	B1074	−28.601	4.769	−13.836	27.59	C
ATOM	2607	OG	SER	B1074	−29.856	4.546	−13.133	31.65	O
ATOM	2608	C	SER	B1074	−28.251	2.296	−13.622	23.1	C
ATOM	2609	O	SER	B1074	−27.384	2.065	−12.768	23.98	O
ATOM	2610	N	SER	B1075	−29.357	1.574	−13.71	18.79	N
ATOM	2611	CA	SER	B1075	−29.571	0.456	−12.794	18.39	C
ATOM	2612	CB	SER	B1075	−31.059	0.086	−12.656	17.77	C
ATOM	2613	OG	SER	B1075	−31.839	1.212	−12.351	19.47	O
ATOM	2614	C	SER	B1075	−28.779	−0.81	−13.213	17.24	C
ATOM	2615	O	SER	B1075	−28.733	−1.788	−12.462	16.14	O
ATOM	2616	N	LEU	B1076	−28.205	−0.789	−14.42	16.22	N
ATOM	2617	CA	LEU	B1076	−27.525	−1.956	−14.919	17.04	C
ATOM	2618	CB	LEU	B1076	−28.278	−2.618	−16.083	15.02	C
ATOM	2619	CG	LEU	B1076	−27.488	−3.894	−16.519	13.13	C
ATOM	2620	CD1	LEU	B1076	−27.606	−5.133	−15.543	7.07	C
ATOM	2621	CD2	LEU	B1076	−27.827	−4.35	−17.936	8.37	C
ATOM	2622	C	LEU	B1076	−26.094	−1.653	−15.374	18	C
ATOM	2623	O	LEU	B1076	−25.845	−0.71	−16.155	18.86	O
ATOM	2624	N	ILE	B1077	−25.169	−2.464	−14.871	18.31	N
ATOM	2625	CA	ILE	B1077	−23.807	−2.441	−15.319	18.16	C
ATOM	2626	CB	ILE	B1077	−22.839	−2.115	−14.189	19.53	C
ATOM	2627	CG2	ILE	B1077	−22.56	−3.33	−13.34	22.33	C
ATOM	2628	CG1	ILE	B1077	−21.569	−1.492	−14.799	21.29	C
ATOM	2629	CD1	ILE	B1077	−21.712	0.173	−14.883	24.57	C
ATOM	2630	C	ILE	B1077	−23.434	−3.727	−16.041	16.53	C
ATOM	2631	O	ILE	B1077	−23.573	−4.818	−15.513	15.15	O
ATOM	2632	N	VAL	B1078	−23.04	−3.586	−17.297	15.26	N
ATOM	2633	CA	VAL	B1078	−22.6	−4.742	−18.049	15.42	C
ATOM	2634	CB	VAL	B1078	−23.043	−4.673	−19.544	16.36	C
ATOM	2635	CG1	VAL	B1078	−22.471	−5.905	−20.285	14.87	C
ATOM	2636	CG2	VAL	B1078	−24.636	−4.51	−19.726	11.11	C
ATOM	2637	C	VAL	B1078	−21.104	−4.807	−17.967	15.76	C
ATOM	2638	O	VAL	B1078	−20.415	−3.899	−18.399	16.11	O
ATOM	2639	N	HIS	B1079	−20.585	−5.882	−17.405	17.22	N
ATOM	2640	CA	HIS	B1079	−19.151	−6.04	−17.273	17.57	C
ATOM	2641	CB	HIS	B1079	−18.811	−6.974	−16.077	16.84	C
ATOM	2642	CG	HIS	B1079	−19.364	−6.485	−14.776	17.03	C
ATOM	2643	CD2	HIS	B1079	−20.056	−7.12	−13.793	21.02	C
ATOM	2644	ND1	HIS	B1079	−19.275	−5.165	−14.389	16.77	N
ATOM	2645	CE1	HIS	B1079	−19.92	−5	−13.24	19.8	C
ATOM	2646	NE2	HIS	B1079	−20.386	−6.173	−12.847	20.06	N
ATOM	2647	C	HIS	B1079	−18.635	−6.581	−18.64	18.29	C
ATOM	2648	O	HIS	B1079	−18.643	−7.789	−18.891	19.18	O
ATOM	2649	N	PHE	B1080	−18.201	−5.68	−19.514	18.22	N
ATOM	2650	CA	PHE	B1080	−17.706	−6.073	−20.82	19.57	C
ATOM	2651	CB	PHE	B1080	−17.608	−4.889	−21.759	19.74	C
ATOM	2652	CG	PHE	B1080	−18.942	−4.432	−22.233	19.46	C
ATOM	2653	CD1	PHE	B1080	−19.751	−5.295	−22.93	23.85	C
ATOM	2654	CD2	PHE	B1080	−19.403	−3.179	−21.925	22.05	C
ATOM	2655	CE1	PHE	B1080	−21.015	−4.902	−23.356	26.81	C
ATOM	2656	CE2	PHE	B1080	−20.663	−2.732	−22.313	21.69	C
ATOM	2657	CZ	PHE	B1080	−21.491	−3.592	−23.037	25.84	C
ATOM	2658	C	PHE	B1080	−16.419	−6.756	−20.781	20.12	C
ATOM	2659	O	PHE	B1080	−15.98	−7.259	−21.786	21.86	O
ATOM	2660	N	ASN	B1081	−15.811	−6.815	−19.61	20.99	N
ATOM	2661	CA	ASN	B1081	−14.49	−7.401	−19.465	21.84	C
ATOM	2662	CB	ASN	B1081	−13.673	−6.529	−18.514	21.63	C
ATOM	2663	CG	ASN	B1081	−14.274	−6.49	−17.069	20.2	C
ATOM	2664	OD1	ASN	B1081	−15.501	−6.616	−16.867	16.99	O
ATOM	2665	ND2	ASN	B1081	−13.405	−6.322	−16.085	15.89	N
ATOM	2666	C	ASN	B1081	−14.606	−8.795	−18.867	23.39	C
ATOM	2667	O	ASN	B1081	−13.604	−9.426	−18.54	24.79	O
ATOM	2668	N	GLU	B1082	−15.829	−9.267	−18.702	24.64	N
ATOM	2669	CA	GLU	B1082	−16.084	−10.518	−18.036	26.06	C
ATOM	2670	CB	GLU	B1082	−16.522	−10.215	−16.577	29.29	C
ATOM	2671	CG	GLU	B1082	−16.231	−11.268	−15.473	34.27	C
ATOM	2672	CD	GLU	B1082	−14.907	−11.959	−15.704	44.49	C
ATOM	2673	OE1	GLU	B1082	−14.676	−13.031	−15.057	45.75	O
ATOM	2674	OE2	GLU	B1082	−14.119	−11.43	−16.551	46.68	O
ATOM	2675	C	GLU	B1082	−17.217	−11.233	−18.766	24.39	C
ATOM	2676	O	GLU	B1082	−18.366	−11.067	−18.417	23.91	O
ATOM	2677	N	VAL	B1083	−16.87	−12.048	−19.745	22.94	N
ATOM	2678	CA	VAL	B1083	−17.822	−12.922	−20.483	21.14	C
ATOM	2679	CB	VAL	B1083	−17.234	−13.339	−21.91	20.22	C
ATOM	2680	CG1	VAL	B1083	−18.168	−14.113	−22.678	20.65	C
ATOM	2681	CG2	VAL	B1083	−16.972	−12.155	−22.701	20.7	C
ATOM	2682	C	VAL	B1083	−18.119	−14.182	−19.678	19.57	C
ATOM	2683	O	VAL	B1083	−17.216	−14.89	−19.278	20.67	O
ATOM	2684	N	ILE	B1084	−19.388	−14.495	−19.475	18.67	N
ATOM	2685	CA	ILE	B1084	−19.753	−15.742	−18.846	16.22	C
ATOM	2686	CB	ILE	B1084	−21.28	−15.711	−18.512	17.63	C
ATOM	2687	CG2	ILE	B1084	−21.768	−17.038	−17.916	17.14	C
ATOM	2688	CG1	ILE	B1084	−21.664	−14.544	−17.596	17.65	C
ATOM	2689	CD1	ILE	B1084	−23.067	−14.626	−17.029	11.56	C
ATOM	2690	C	ILE	B1084	−19.458	−16.902	−19.867	16.46	C
ATOM	2691	O	ILE	B1084	−18.887	−17.914	−19.53	15.12	O
ATOM	2692	N	GLY	B1085	−19.893	−16.739	−21.118	16.34	N
ATOM	2693	CA	GLY	B1085	−19.514	−17.614	−22.216	16.79	C
ATOM	2694	C	GLY	B1085	−19.858	−17.033	−23.558	18.48	C
ATOM	2695	O	GLY	B1085	−20.736	−16.182	−23.688	17.84	O
ATOM	2696	N	ARG	B1086	−19.122	−17.454	−24.572	21.62	N
ATOM	2697	CA	ARG	B1086	−19.513	−17.188	−25.976	24.64	C
ATOM	2698	CB	ARG	B1086	−18.458	−16.397	−26.721	24.78	C
ATOM	2699	CG	ARG	B1086	−17.073	−16.877	−26.491	31.15	C
ATOM	2700	CD	ARG	B1086	−16.223	−15.631	−26.219	35.05	C
ATOM	2701	NE	ARG	B1086	−16.505	−14.628	−27.228	34.79	N
ATOM	2702	CZ	ARG	B1086	−16.196	−13.337	−27.146	39.83	C
ATOM	2703	NH1	ARG	B1086	−15.603	−12.816	−26.057	37.31	N
ATOM	2704	NH2	ARG	B1086	−16.52	−12.555	−28.176	42.02	N
ATOM	2705	C	ARG	B1086	−19.868	−18.464	−26.719	24.15	C
ATOM	2706	O	ARG	B1086	−19.849	−19.536	−26.129	25.44	O
ATOM	2707	N	GLY	B1087	−20.246	−18.354	−27.988	24.14	N
ATOM	2708	CA	GLY	B1087	−20.613	−19.541	−28.764	22.48	C
ATOM	2709	C	GLY	B1087	−21.557	−19.128	−29.866	22.96	C
ATOM	2710	O	GLY	B1087	−21.668	−17.947	−30.179	22.52	O
ATOM	2711	N	HIS	B1088	−22.276	−20.087	−30.435	22.87	N
ATOM	2712	CA	HIS	B1088	−23.123	−19.797	−31.547	23.11	C
ATOM	2713	CB	HIS	B1088	−23.739	−21.099	−32.06	23.86	C
ATOM	2714	CG	HIS	B1088	−22.764	−22.012	−32.747	29.02	C
ATOM	2715	CD2	HIS	B1088	−21.826	−21.771	−33.703	33.46	C
ATOM	2716	ND1	HIS	B1088	−22.688	−23.375	−32.471	31.16	N
ATOM	2717	CE1	HIS	B1088	−21.741	−23.927	−33.216	31.77	C
ATOM	2718	NE2	HIS	B1088	−21.198	−22.979	−33.969	35.52	N
ATOM	2719	C	HIS	B1088	−24.199	−18.805	−31.131	22.73	C
ATOM	2720	O	HIS	B1088	−24.67	−18.004	−31.946	23.01	O
ATOM	2721	N	PHE	B1089	−24.611	−18.88	−29.856	21.15	N
ATOM	2722	CA	PHE	B1089	−25.64	−17.965	−29.292	19.41	C
ATOM	2723	CB	PHE	B1089	−26.116	−18.361	−27.851	17.09	C
ATOM	2724	CG	PHE	B1089	−24.998	−18.644	−26.906	15.09	C
ATOM	2725	CD1	PHE	B1089	−24.57	−19.945	−26.708	10.23	C
ATOM	2726	CD2	PHE	B1089	−24.337	−17.606	−26.235	15.28	C
ATOM	2727	CE1	PHE	B1089	−23.533	−20.227	−25.91	12.01	C
ATOM	2728	CE2	PHE	B1089	−23.256	−17.882	−25.376	11.78	C
ATOM	2729	CZ	PHE	B1089	−22.833	−19.17	−25.219	12.66	C
ATOM	2730	C	PHE	B1089	−25.193	−16.546	−29.29	18.49	C
ATOM	2731	O	PHE	B1089	−26.008	−15.624	−29.268	19.76	O
ATOM	2732	N	GLY	B1090	−23.888	−16.375	−29.266	18.92	N
ATOM	2733	CA	GLY	B1090	−23.269	−15.059	−29.181	18.6	C
ATOM	2734	C	GLY	B1090	−22.421	−14.958	−27.952	19.37	C
ATOM	2735	O	GLY	B1090	−21.628	−15.857	−27.601	19.8	O
ATOM	2736	N	CYS	B1091	−22.632	−13.863	−27.246	20.89	N
ATOM	2737	CA	CYS	B1091	−21.784	−13.532	−26.131	18.73	C
ATOM	2738	CB	CYS	B1091	−20.765	−12.491	−26.582	17.69	C
ATOM	2739	SG	CYS	B1091	−19.599	−12.191	−25.292	25.76	S
ATOM	2740	C	CYS	B1091	−22.658	−13.055	−24.95	16.84	C
ATOM	2741	O	CYS	B1091	−23.368	−12.093	−25.073	16.87	O
ATOM	2742	N	VAL	B1092	−22.606	−13.784	−23.821	15.9	N
ATOM	2743	CA	VAL	B1092	−23.285	−13.453	−22.564	13.08	C
ATOM	2744	CB	VAL	B1092	−23.925	−14.71	−22.003	13.11	C
ATOM	2745	CG1	VAL	B1092	−24.666	−14.416	−20.667	11.81	C
ATOM	2746	CG2	VAL	B1092	−24.849	−15.318	−23.044	9.74	C
ATOM	2747	C	VAL	B1092	−22.28	−12.846	−21.558	13.31	C
ATOM	2748	O	VAL	B1092	−21.195	−13.45	−21.285	12.97	O
ATOM	2749	N	TYR	B1093	−22.614	−11.675	−21.01	12.17	N
ATOM	2750	CA	TYR	B1093	−21.69	−11.008	−20.081	12.63	C
ATOM	2751	CB	TYR	B1093	−21.487	−9.535	−20.455	15.65	C
ATOM	2752	CG	TYR	B1093	−20.841	−9.296	−21.779	19.09	C
ATOM	2753	CD1	TYR	B1093	−21.625	−9.162	−22.952	23.98	C
ATOM	2754	CE1	TYR	B1093	−21.015	−8.929	−24.224	24.21	C
ATOM	2755	CD2	TYR	B1093	−19.438	−9.231	−21.89	23.44	C
ATOM	2756	CE2	TYR	B1093	−18.811	−9.033	−23.136	22.72	C
ATOM	2757	CZ	TYR	B1093	−19.613	−8.866	−24.294	24.32	C
ATOM	2758	OH	TYR	B1093	−19.014	−8.678	−25.537	26.39	O
ATOM	2759	C	TYR	B1093	−22.208	−11.057	−18.669	11.68	C
ATOM	2760	O	TYR	B1093	−23.387	−11.169	−18.415	10.89	O
ATOM	2761	N	HIS	B1094	−21.299	−10.925	−17.749	12.3	N
ATOM	2762	CA	HIS	B1094	−21.586	−10.755	−16.356	13.94	C
ATOM	2763	CB	HIS	B1094	−20.262	−10.865	−15.54	14.31	C
ATOM	2764	CG	HIS	B1094	−19.78	−12.281	−15.292	17.39	C
ATOM	2765	CD2	HIS	B1094	−18.702	−12.953	−15.769	16.61	C
ATOM	2766	ND1	HIS	B1094	−20.423	−13.158	−14.434	19.34	N
ATOM	2767	CE1	HIS	B1094	−19.751	−14.297	−14.387	17.95	C
ATOM	2768	NE2	HIS	B1094	−18.701	−14.196	−15.185	16.9	N
ATOM	2769	C	HIS	B1094	−22.193	−9.334	−16.234	14.54	C
ATOM	2770	O	HIS	B1094	−21.766	−8.464	−16.954	14.33	O
ATOM	2771	N	GLY	B1095	−23.174	−9.125	−15.343	15.33	N
ATOM	2772	CA	GLY	B1095	−23.679	−7.799	−15.024	17.33	C
ATOM	2773	C	GLY	B1095	−24.024	−7.644	−13.537	19.43	C
ATOM	2774	O	GLY	B1095	−24.178	−8.645	−12.821	20.21	O
ATOM	2775	N	THR	B1096	−24.127	−6.395	−13.075	19.44	N
ATOM	2776	CA	THR	B1096	−24.62	−6.053	−11.77	20.54	C
ATOM	2777	CB	THR	B1096	−23.533	−5.296	−10.884	22.73	C
ATOM	2778	OG1	THR	B1096	−22.325	−6.063	−10.81	24.87	O
ATOM	2779	CG2	THR	B1096	−23.999	−4.975	−9.458	21.73	C
ATOM	2780	C	THR	B1096	−25.899	−5.216	−11.944	20.08	C
ATOM	2781	O	THR	B1096	−25.953	−4.19	−12.614	18.92	O
ATOM	2782	N	LEU	B1097	−26.939	−5.68	−11.29	20.8	N
ATOM	2783	CA	LEU	B1097	−28.208	−5.019	−11.339	21.12	C
ATOM	2784	CB	LEU	B1097	−29.271	−6.052	−11.687	20.87	C
ATOM	2785	CG	LEU	B1097	−30.728	−5.667	−11.808	20.41	C
ATOM	2786	CD1	LEU	B1097	−30.878	−4.58	−12.837	16.06	C
ATOM	2787	CD2	LEU	B1097	−31.543	−6.919	−12.214	21.59	C
ATOM	2788	C	LEU	B1097	−28.466	−4.378	−9.989	21.74	C
ATOM	2789	O	LEU	B1097	−28.114	−4.932	−8.956	21.45	O
ATOM	2790	N	LEU	B1098	−29.026	−3.183	−10.009	22.86	N
ATOM	2791	CA	LEU	B1098	−29.656	−2.633	−8.818	25.58	C
ATOM	2792	CB	LEU	B1098	−29.714	−1.129	−8.928	27.1	C
ATOM	2793	CG	LEU	B1098	−28.506	−0.437	−8.287	32.12	C
ATOM	2794	CD1	LEU	B1098	−28.999	0.999	−7.909	35.01	C
ATOM	2795	CD2	LEU	B1098	−27.972	−1.212	−7.019	32.02	C
ATOM	2796	C	LEU	B1098	−31.076	−3.162	−8.549	26.01	C
ATOM	2797	O	LEU	B1098	−32.028	−2.912	−9.356	25.42	O
ATOM	2798	N	ASP	B1099	−31.232	−3.895	−7.445	25.81	N
ATOM	2799	CA	ASP	B1099	−32.545	−4.391	−7.105	27.24	C
ATOM	2800	CB	ASP	B1099	−32.484	−5.6	−6.116	28.47	C
ATOM	2801	CG	ASP	B1099	−32.237	−5.18	−4.638	30.23	C
ATOM	2802	OD1	ASP	B1099	−32.055	−6.081	−3.819	34.88	O
ATOM	2803	OD2	ASP	B1099	−32.207	−3.984	−4.275	32.44	O
ATOM	2804	C	ASP	B1099	−33.44	−3.248	−6.602	27.3	C
ATOM	2805	O	ASP	B1099	−32.963	−2.101	−6.454	25.57	O
ATOM	2806	N	ASN	B1100	−34.724	−3.579	−6.33	28.29	N
ATOM	2807	CA	ASN	B1100	−35.721	−2.609	−5.847	28.31	C
ATOM	2808	CB	ASN	B1100	−37.072	−3.219	−5.631	26.71	C
ATOM	2809	CG	ASN	B1100	−38.145	−2.143	−5.454	26.73	C
ATOM	2810	OD1	ASN	B1100	−38.8	−2.068	−4.398	20.33	O
ATOM	2811	ND2	ASN	B1100	−38.335	−1.282	−6.52	26.17	N
ATOM	2812	C	ASN	B1100	−35.348	−1.864	−4.576	29.84	C
ATOM	2813	O	ASN	B1100	−35.804	−0.737	−4.363	29.24	O
ATOM	2814	N	ASP	B1101	−34.554	−2.538	−3.74	31.72	N
ATOM	2815	CA	ASP	B1101	−33.82	−1.927	−2.64	34.59	C
ATOM	2816	CB	ASP	B1101	−33.808	−2.889	−1.481	33.48	C
ATOM	2817	CG	ASP	B1101	−35.207	−2.991	−0.827	39.38	C
ATOM	2818	OD1	ASP	B1101	−35.775	−1.921	−0.349	45.14	O
ATOM	2819	OD2	ASP	B1101	−35.761	−4.108	−0.813	36.72	O
ATOM	2820	C	ASP	B1101	−32.413	−1.465	−3.077	36.69	C
ATOM	2821	O	ASP	B1101	−32.127	−1.237	−4.265	36.88	O
ATOM	2822	N	GLY	B1102	−31.498	−1.305	−2.143	39.09	N
ATOM	2823	CA	GLY	B1102	−30.124	−0.924	−2.613	40.88	C
ATOM	2824	C	GLY	B1102	−29.297	−2.014	−3.32	39.37	C
ATOM	2825	O	GLY	B1102	−28.518	−1.73	−4.196	39.26	O
ATOM	2826	N	LYS	B1103	−29.521	−3.246	−2.908	38.65	N
ATOM	2827	CA	LYS	B1103	−28.754	−4.403	−3.272	38.51	C
ATOM	2828	CB	LYS	B1103	−29.56	−5.646	−2.852	39.63	C
ATOM	2829	CG	LYS	B1103	−28.778	−6.767	−2.134	44.66	C
ATOM	2830	CD	LYS	B1103	−29.167	−6.92	−0.629	52.43	C
ATOM	2831	CE	LYS	B1103	−30.716	−6.764	−0.3	54.14	C
ATOM	2832	NZ	LYS	B1103	−31.134	−5.32	0.054	55.6	N
ATOM	2833	C	LYS	B1103	−28.243	−4.509	−4.736	36.26	C
ATOM	2834	O	LYS	B1103	−28.98	−4.338	−5.686	35.57	O
ATOM	2835	N	LYS	B1104	−26.964	−4.828	−4.861	34.09	N
ATOM	2836	CA	LYS	B1104	−26.323	−5.12	−6.123	34.17	C
ATOM	2837	CB	LYS	B1104	−24.868	−4.601	−6.109	34.35	C
ATOM	2838	CG	LYS	B1104	−24.593	−3.486	−5.057	36.56	C
ATOM	2839	CD	LYS	B1104	−23.171	−2.909	−5.185	38.62	C
ATOM	2840	CE	LYS	B1104	−23.128	−1.452	−5.724	43.22	C
ATOM	2841	NZ	LYS	B1104	−23.341	−1.512	−7.206	46.31	N
ATOM	2842	C	LYS	B1104	−26.402	−6.652	−6.38	31.81	C
ATOM	2843	O	LYS	B1104	−25.87	−7.441	−5.616	31.44	O
ATOM	2844	N	ILE	B1105	−27.149	−7.033	−7.414	29.56	N
ATOM	2845	CA	ILE	B1105	−27.428	−8.426	−7.813	27.18	C
ATOM	2846	CB	ILE	B1105	−28.907	−8.58	−8.179	27.2	C
ATOM	2847	CG2	ILE	B1105	−29.283	−9.993	−8.613	26.76	C
ATOM	2848	CG1	ILE	B1105	−29.777	−8.168	−6.994	29.84	C
ATOM	2849	CD1	ILE	B1105	−29.216	−8.504	−5.573	31.01	C
ATOM	2850	C	ILE	B1105	−26.605	−8.859	−9.06	26.17	C
ATOM	2851	O	ILE	B1105	−26.553	−8.178	−10.122	24.06	O
ATOM	2852	N	HIS	B1106	−26.01	−10.031	−8.905	24.12	N
ATOM	2853	CA	HIS	B1106	−25.326	−10.679	−9.971	23.11	C
ATOM	2854	CB	HIS	B1106	−24.395	−11.738	−9.411	22.82	C
ATOM	2855	CG	HIS	B1106	−23.467	−12.292	−10.441	26.43	C
ATOM	2856	CD2	HIS	B1106	−23.107	−11.797	−11.66	26.36	C
ATOM	2857	ND1	HIS	B1106	−22.832	−13.509	−10.306	25.2	N
ATOM	2858	CE1	HIS	B1106	−22.083	−13.705	−11.374	29.25	C
ATOM	2859	NE2	HIS	B1106	−22.239	−12.687	−12.212	25.17	N
ATOM	2860	C	HIS	B1106	−26.274	−11.204	−11.077	21.62	C
ATOM	2861	O	HIS	B1106	−27.227	−11.865	−10.811	22.59	O
ATOM	2862	N	CYS	B1107	−26.007	−10.883	−12.33	19.48	N
ATOM	2863	CA	CYS	B1107	−26.835	−11.388	−13.385	17.55	C
ATOM	2864	CB	CYS	B1107	−27.965	−10.384	−13.666	18.07	C
ATOM	2865	SG	CYS	B1107	−27.227	−8.718	−14.16	18.42	S
ATOM	2866	C	CYS	B1107	−26	−11.588	−14.661	16.17	C
ATOM	2867	O	CYS	B1107	−24.815	−11.264	−14.744	15.08	O
ATOM	2868	N	ALA	B1108	−26.695	−12.123	−15.666	15.55	N
ATOM	2869	CA	ALA	B1108	−26.16	−12.448	−16.975	11.19	C
ATOM	2870	CB	ALA	B1108	−26.452	−13.869	−17.222	10.83	C
ATOM	2871	C	ALA	B1108	−26.894	−11.561	−17.972	9.92	C
ATOM	2872	O	ALA	B1108	−28.124	−11.399	−17.883	6.01	O
ATOM	2873	N	VAL	B1109	−26.136	−10.926	−18.872	8.97	N
ATOM	2874	CA	VAL	B1109	−26.774	−10.01	−19.843	9.33	C
ATOM	2875	CB	VAL	B1109	−26.807	−8.391	−19.481	9.45	C
ATOM	2876	CG1	VAL	B1109	−26.032	−8.005	−18.3	8.25	C
ATOM	2877	CG2	VAL	B1109	−26.452	−7.547	−20.668	8.77	C
ATOM	2878	C	VAL	B1109	−26.389	−10.338	−21.304	9.24	C
ATOM	2879	O	VAL	B1109	−25.3	−10.815	−21.579	7.3	O
ATOM	2880	N	LYS	B1110	−27.33	−10.08	−22.194	9.22	N
ATOM	2881	CA	LYS	B1110	−27.189	−10.462	−23.567	11.63	C
ATOM	2882	CB	LYS	B1110	−27.786	−11.887	−23.756	12.52	C
ATOM	2883	CG	LYS	B1110	−27.781	−12.443	−25.149	13.32	C
ATOM	2884	CD	LYS	B1110	−26.441	−13.135	−25.377	11.87	C
ATOM	2885	CE	LYS	B1110	−26.107	−13.203	−26.846	21	C
ATOM	2886	NZ	LYS	B1110	−27.201	−13.071	−27.897	14.68	N
ATOM	2887	C	LYS	B1110	−27.941	−9.431	−24.432	11.11	C
ATOM	2888	O	LYS	B1110	−29.071	−9.075	−24.095	8.61	O
ATOM	2889	N	SER	B1111	−27.245	−8.907	−25.467	11.93	N
ATOM	2890	CA	SER	B1111	−27.887	−8.092	−26.53	13.48	C
ATOM	2891	CB	SER	B1111	−26.851	−7.147	−27.199	14.94	C
ATOM	2892	OG	SER	B1111	−27.026	−7.007	−28.604	13.55	O
ATOM	2893	C	SER	B1111	−28.647	−8.977	−27.532	13.17	C
ATOM	2894	O	SER	B1111	−28.147	−10.014	−27.985	11.98	O
ATOM	2895	N	LEU	B1112	−29.896	−8.608	−27.816	14.3	N
ATOM	2896	CA	LEU	B1112	−30.675	−9.407	−28.783	14.87	C
ATOM	2897	CB	LEU	B1112	−32.192	−9.38	−28.546	15.11	C
ATOM	2898	CG	LEU	B1112	−32.469	−9.532	−27.068	12.54	C
ATOM	2899	CD1	LEU	B1112	−33.858	−9.321	−26.935	11.61	C
ATOM	2900	CD2	LEU	B1112	−32.111	−10.95	−26.66	12.26	C
ATOM	2901	C	LEU	B1112	−30.323	−8.969	−30.187	14.57	C
ATOM	2902	O	LEU	B1112	−31.054	−8.269	−30.824	13.73	O
ATOM	2903	N	ASN	B1113	−29.169	−9.435	−30.641	15.7	N
ATOM	2904	CA	ASN	B1113	−28.644	−9.036	−31.913	17.23	C
ATOM	2905	CB	ASN	B1113	−27.293	−9.678	−32.137	16.16	C
ATOM	2906	CG	ASN	B1113	−26.265	−9.178	−31.126	15.4	C
ATOM	2907	OD1	ASN	B1113	−26.097	−7.984	−30.918	15.23	O
ATOM	2908	ND2	ASN	B1113	−25.602	−10.073	−30.507	16.3	N
ATOM	2909	C	ASN	B1113	−29.569	−9.245	−33.104	18.32	C
ATOM	2910	O	ASN	B1113	−29.219	−8.847	−34.181	21.69	O
ATOM	2911	N	ARG	B1114	−30.765	−9.776	−32.907	16.84	N
ATOM	2912	CA	ARG	B1114	−31.561	−10.105	−34.016	16.33	C
ATOM	2913	CB	ARG	B1114	−32.027	−11.553	−33.914	17.05	C
ATOM	2914	CG	ARG	B1114	−30.88	−12.544	−34.163	19.42	C
ATOM	2915	CD	ARG	B1114	−31.261	−13.954	−33.837	22.69	C
ATOM	2916	NE	ARG	B1114	−32.327	−14.399	−34.716	29.67	N
ATOM	2917	CZ	ARG	B1114	−33.248	−15.305	−34.369	37.44	C
ATOM	2918	NH1	ARG	B1114	−33.236	−15.907	−33.125	34.6	N
ATOM	2919	NH2	ARG	B1114	−34.174	−15.635	−35.285	34.77	N
ATOM	2920	C	ARG	B1114	−32.719	−9.186	−34.121	16.57	C
ATOM	2921	O	ARG	B1114	−33.455	−9.265	−35.114	15.8	O
ATOM	2922	N	ILE	B1115	−32.923	−8.377	−33.064	16.18	N
ATOM	2923	CA	ILE	B1115	−33.885	−7.318	−33.061	15.66	C
ATOM	2924	CB	ILE	B1115	−34.432	−6.958	−31.659	16.8	C
ATOM	2925	CG2	ILE	B1115	−35.521	−5.899	−31.741	14.64	C
ATOM	2926	CG1	ILE	B1115	−34.762	−8.167	−30.74	19.85	C
ATOM	2927	CD1	ILE	B1115	−35.743	−9.11	−31.195	21.64	C
ATOM	2928	C	ILE	B1115	−33.133	−6.119	−33.611	15.81	C
ATOM	2929	O	ILE	B1115	−32.31	−5.46	−32.89	15.75	O
ATOM	2930	N	THR	B1116	−33.362	−5.856	−34.901	15.82	N
ATOM	2931	CA	THR	B1116	−32.576	−4.842	−35.64	16.62	C
ATOM	2932	CB	THR	B1116	−32.017	−5.435	−36.928	15.6	C
ATOM	2933	OG1	THR	B1116	−33.084	−5.709	−37.85	15.48	O
ATOM	2934	CG2	THR	B1116	−31.311	−6.728	−36.622	14.81	C
ATOM	2935	C	THR	B1116	−33.361	−3.528	−35.902	18	C
ATOM	2936	O	THR	B1116	−32.808	−2.563	−36.384	19.97	O
ATOM	2937	N	ASP	B1117	−34.652	−3.498	−35.583	18.89	N
ATOM	2938	CA	ASP	B1117	−35.485	−2.31	−35.723	18.62	C
ATOM	2939	CB	ASP	B1117	−35.95	−2.156	−37.175	20.27	C
ATOM	2940	CG	ASP	B1117	−36.778	−3.349	−37.646	23.06	C
ATOM	2941	OD1	ASP	B1117	−37.751	−3.729	−36.981	29.38	O
ATOM	2942	OD2	ASP	B1117	−36.46	−3.945	−38.686	32.03	O
ATOM	2943	C	ASP	B1117	−36.701	−2.351	−34.8	17.98	C
ATOM	2944	O	ASP	B1117	−36.942	−3.363	−34.138	18.33	O
ATOM	2945	N	ILE	B1118	−37.435	−1.232	−34.758	17.89	N
ATOM	2946	CA	ILE	B1118	−38.546	−1.012	−33.845	18.34	C
ATOM	2947	CB	ILE	B1118	−39.083	0.396	−33.961	19.06	C
ATOM	2948	CG2	ILE	B1118	−39.857	0.592	−35.276	18.01	C
ATOM	2949	CG1	ILE	B1118	−39.932	0.715	−32.733	20.21	C
ATOM	2950	CD1	ILE	B1118	−40.595	2.106	−32.764	20.59	C
ATOM	2951	C	ILE	B1118	−39.722	−1.987	−34.056	18.2	C
ATOM	2952	O	ILE	B1118	−40.434	−2.352	−33.116	16.36	O
ATOM	2953	N	GLY	B1119	−39.912	−2.41	−35.296	18.21	N
ATOM	2954	CA	GLY	B1119	−40.961	−3.359	−35.567	19.58	C
ATOM	2955	C	GLY	B1119	−40.705	−4.683	−34.836	20.43	C
ATOM	2956	O	GLY	B1119	−41.653	−5.29	−34.339	19.99	O
ATOM	2957	N	GLU	B1120	−39.423	−5.094	−34.794	19.5	N
ATOM	2958	CA	GLU	B1120	−38.965	−6.307	−34.155	20.69	C
ATOM	2959	CB	GLU	B1120	−37.588	−6.722	−34.711	20.04	C
ATOM	2960	CG	GLU	B1120	−37.682	−6.969	−36.176	23	C
ATOM	2961	CD	GLU	B1120	−36.343	−7.215	−36.859	26.75	C
ATOM	2962	OE1	GLU	B1120	−35.262	−6.975	−36.243	25.12	O
ATOM	2963	OE2	GLU	B1120	−36.4	−7.619	−38.049	28.35	O
ATOM	2964	C	GLU	B1120	−38.938	−6.188	−32.6	20.23	C
ATOM	2965	O	GLU	B1120	−39.085	−7.197	−31.923	18.33	O
ATOM	2966	N	VAL	B1121	−38.754	−4.954	−32.08	20.43	N
ATOM	2967	CA	VAL	B1121	−38.787	−4.699	−30.651	20.56	C
ATOM	2968	CB	VAL	B1121	−38.324	−3.278	−30.303	20.8	C
ATOM	2969	CG1	VAL	B1121	−38.445	−3.064	−28.833	20.21	C
ATOM	2970	CG2	VAL	B1121	−36.884	−3.082	−30.672	19.6	C
ATOM	2971	C	VAL	B1121	−40.217	−4.911	−30.185	21.33	C
ATOM	2972	O	VAL	B1121	−40.487	−5.678	−29.252	23.1	O
ATOM	2973	N	SER	B1122	−41.141	−4.252	−30.869	21.22	N
ATOM	2974	CA	SER	B1122	−42.512	−4.24	−30.503	20.16	C
ATOM	2975	CB	SER	B1122	−43.213	−3.315	−31.468	20.41	C
ATOM	2976	OG	SER	B1122	−44.646	−3.36	−31.284	27.62	O
ATOM	2977	C	SER	B1122	−43.054	−5.679	−30.533	20.02	C
ATOM	2978	O	SER	B1122	−43.856	−6.091	−29.659	16.24	O
ATOM	2979	N	GLN	B1123	−42.557	−6.467	−31.517	20.28	N
ATOM	2980	CA	GLN	B1123	−42.983	−7.86	−31.617	20.71	C
ATOM	2981	CB	GLN	B1123	−42.579	−8.467	−32.959	21.57	C
ATOM	2982	CG	GLN	B1123	−42.542	−9.975	−32.88	26.83	C
ATOM	2983	CD	GLN	B1123	−42.828	−10.698	−34.188	34.81	C
ATOM	2984	OE1	GLN	B1123	−41.885	−11.107	−34.907	30.93	O
ATOM	2985	NE2	GLN	B1123	−44.141	−10.923	−34.478	34.08	N
ATOM	2986	C	GLN	B1123	−42.472	−8.71	−30.43	19.33	C
ATOM	2987	O	GLN	B1123	−43.164	−9.598	−29.906	18.63	O
ATOM	2988	N	PHE	B1124	−41.245	−8.416	−30.046	18.92	N
ATOM	2989	CA	PHE	B1124	−40.593	−8.976	−28.889	19.21	C
ATOM	2990	CB	PHE	B1124	−39.17	−8.464	−28.855	19.71	C
ATOM	2991	CG	PHE	B1124	−38.487	−8.783	−27.6	20.88	C
ATOM	2992	CD1	PHE	B1124	−38.26	−10.104	−27.248	23.63	C
ATOM	2993	CD2	PHE	B1124	−38.134	−7.77	−26.724	20.85	C
ATOM	2994	CE1	PHE	B1124	−37.659	−10.407	−26.031	24.95	C
ATOM	2995	CE2	PHE	B1124	−37.538	−8.052	−25.524	20.74	C
ATOM	2996	CZ	PHE	B1124	−37.297	−9.35	−25.178	23.67	C
ATOM	2997	C	PHE	B1124	−41.296	−8.611	−27.564	18.85	C
ATOM	2998	O	PHE	B1124	−41.446	−9.435	−26.68	18.31	O
ATOM	2999	N	LEU	B1125	−41.75	−7.369	−27.439	18.95	N
ATOM	3000	CA	LEU	B1125	−42.379	−6.957	−26.208	19.31	C
ATOM	3001	CB	LEU	B1125	−42.611	−5.444	−26.14	18.61	C
ATOM	3002	CG	LEU	B1125	−41.395	−4.544	−26.055	17.81	C
ATOM	3003	CD1	LEU	B1125	−41.888	−3.154	−25.953	13.16	C
ATOM	3004	CD2	LEU	B1125	−40.476	−4.981	−24.911	14.76	C
ATOM	3005	C	LEU	B1125	−43.664	−7.693	−26.029	20.43	C
ATOM	3006	O	LEU	B1125	−43.999	−8.102	−24.885	19.8	O
ATOM	3007	N	THR	B1126	−44.346	−7.892	−27.165	21.81	N
ATOM	3008	CA	THR	B1126	−45.593	−8.636	−27.203	24.27	C
ATOM	3009	CB	THR	B1126	−46.294	−8.457	−28.491	25.04	C
ATOM	3010	OG1	THR	B1126	−46.77	−7.12	−28.565	27.43	O
ATOM	3011	CG2	THR	B1126	−47.491	−9.396	−28.593	27.15	C
ATOM	3012	C	THR	B1126	−45.397	−10.114	−26.995	25.94	C
ATOM	3013	O	THR	B1126	−45.977	−10.651	−26.074	25.49	O
ATOM	3014	N	GLU	B1127	−44.56	−10.747	−27.849	28.18	N
ATOM	3015	CA	GLU	B1127	−44.342	−12.216	−27.902	29.09	C
ATOM	3016	CB	GLU	B1127	−43.6	−12.615	−29.212	29.43	C
ATOM	3017	CG	GLU	B1127	−44.366	−12.433	−30.585	34.63	C
ATOM	3018	CD	GLU	B1127	−43.93	−13.447	−31.739	36.34	C
ATOM	3019	OE1	GLU	B1127	−42.932	−14.233	−31.583	42.77	O
ATOM	3020	OE2	GLU	B1127	−44.616	−13.46	−32.813	43.01	O
ATOM	3021	C	GLU	B1127	−43.509	−12.73	−26.759	27.06	C
ATOM	3022	O	GLU	B1127	−43.782	−13.746	−26.167	28.65	O
ATOM	3023	N	GLY	B1128	−42.419	−12.061	−26.507	25.65	N
ATOM	3024	CA	GLY	B1128	−41.409	−12.606	−25.676	23.56	C
ATOM	3025	C	GLY	B1128	−41.495	−12.108	−24.259	22.44	C
ATOM	3026	O	GLY	B1128	−40.861	−12.688	−23.385	23.01	O
ATOM	3027	N	ILE	B1129	−42.313	−11.087	−23.994	21.65	N
ATOM	3028	CA	ILE	B1129	−42.452	−10.613	−22.605	20.71	C
ATOM	3029	CB	ILE	B1129	−41.976	−9.163	−22.398	20.57	C
ATOM	3030	CG2	ILE	B1129	−42.295	−8.632	−20.984	16.98	C
ATOM	3031	CG1	ILE	B1129	−40.527	−8.996	−22.884	22.44	C
ATOM	3032	CD1	ILE	B1129	−39.511	−8.768	−21.844	27.47	C
ATOM	3033	C	ILE	B1129	−43.868	−10.773	−22.116	21.37	C
ATOM	3034	O	ILE	B1129	−44.074	−11.484	−21.141	22.91	O
ATOM	3035	N	ILE	B1130	−44.83	−10.116	−22.768	21.42	N
ATOM	3036	CA	ILE	B1130	−46.225	−10.12	−22.373	21.54	C
ATOM	3037	CB	ILE	B1130	−46.963	−8.979	−23.165	23.73	C
ATOM	3038	CG2	ILE	B1130	−48.557	−9.195	−23.349	23.9	C
ATOM	3039	CG1	ILE	B1130	−46.652	−7.612	−22.528	22.28	C
ATOM	3040	CD1	ILE	B1130	−46.984	−6.542	−23.431	29.63	C
ATOM	3041	C	ILE	B1130	−46.9	−11.48	−22.593	21.67	C
ATOM	3042	O	ILE	B1130	−47.808	−11.858	−21.875	20.59	O
ATOM	3043	N	MET	B1131	−46.453	−12.211	−23.587	21.62	N
ATOM	3044	CA	MET	B1131	−47.003	−13.489	−23.86	25.06	C
ATOM	3045	CB	MET	B1131	−46.974	−13.796	−25.365	25.52	C
ATOM	3046	CG	MET	B1131	−48.265	−13.463	−26.138	28.21	C
ATOM	3047	SD	MET	B1131	−47.881	−13.85	−27.932	37.9	S
ATOM	3048	CE	MET	B1131	−48.83	−12.507	−28.735	33.81	C
ATOM	3049	C	MET	B1131	−46.236	−14.575	−23.133	23.04	C
ATOM	3050	O	MET	B1131	−46.56	−15.74	−23.305	22.39	O
ATOM	3051	N	LYS	B1132	−45.22	−14.212	−22.347	22.43	N
ATOM	3052	CA	LYS	B1132	−44.486	−15.183	−21.513	21.49	C
ATOM	3053	CB	LYS	B1132	−43.145	−15.617	−22.13	21.65	C
ATOM	3054	CG	LYS	B1132	−43.284	−16.095	−23.534	24.27	C
ATOM	3055	CD	LYS	B1132	−41.954	−16.295	−24.221	26.68	C
ATOM	3056	CE	LYS	B1132	−42.215	−17.072	−25.529	31.37	C
ATOM	3057	NZ	LYS	B1132	−40.981	−17.343	−26.409	30.29	N
ATOM	3058	C	LYS	B1132	−44.264	−14.664	−20.109	19.94	C
ATOM	3059	O	LYS	B1132	−43.142	−14.619	−19.637	18.91	O
ATOM	3060	N	ASP	B1133	−45.356	−14.262	−19.461	19.36	N
ATOM	3061	CA	ASP	B1133	−45.318	−13.836	−18.068	18.25	C
ATOM	3062	CB	ASP	B1133	−46.394	−12.803	−17.826	19.04	C
ATOM	3063	CG	ASP	B1133	−46.025	−11.787	−16.716	25.02	C
ATOM	3064	OD1	ASP	B1133	−46.678	−10.734	−16.677	32.68	O
ATOM	3065	OD2	ASP	B1133	−45.12	−11.971	−15.874	27.29	O
ATOM	3066	C	ASP	B1133	−45.459	−15.042	−17.07	16.25	C
ATOM	3067	O	ASP	B1133	−46.575	−15.418	−16.702	15.72	O
ATOM	3068	N	PHE	B1134	−44.334	−15.661	−16.703	13.2	N
ATOM	3069	CA	PHE	B1134	−44.371	−16.847	−15.908	13.49	C
ATOM	3070	CB	PHE	B1134	−43.749	−18.062	−16.681	13.84	C
ATOM	3071	CG	PHE	B1134	−44.392	−18.326	−17.977	12.66	C
ATOM	3072	CD1	PHE	B1134	−43.665	−18.247	−19.149	8.62	C
ATOM	3073	CD2	PHE	B1134	−45.74	−18.598	−18.038	13.15	C
ATOM	3074	CE1	PHE	B1134	−44.24	−18.472	−20.344	9.63	C
ATOM	3075	CE2	PHE	B1134	−46.381	−18.775	−19.284	11.64	C
ATOM	3076	CZ	PHE	B1134	−45.626	−18.693	−20.441	12.7	C
ATOM	3077	C	PHE	B1134	−43.658	−16.664	−14.532	12.63	C
ATOM	3078	O	PHE	B1134	−42.758	−15.847	−14.405	12.68	O
ATOM	3079	N	SER	B1135	−44.032	−17.467	−13.554	11.18	N
ATOM	3080	CA	SER	B1135	−43.437	−17.455	−12.292	12.48	C
ATOM	3081	CB	SER	B1135	−44.072	−16.389	−11.376	13.66	C
ATOM	3082	OG	SER	B1135	−43.358	−16.274	−10.114	19.22	O
ATOM	3083	C	SER	B1135	−43.606	−18.843	−11.714	11.96	C
ATOM	3084	O	SER	B1135	−44.722	−19.284	−11.4	10.34	O
ATOM	3085	N	HIS	B1136	−42.453	−19.496	−11.574	10.83	N
ATOM	3086	CA	HIS	B1136	−42.306	−20.857	−11.158	9.03	C
ATOM	3087	CB	HIS	B1136	−42.855	−21.851	−12.194	7.78	C
ATOM	3088	CG	HIS	B1136	−42.977	−23.233	−11.645	7.34	C
ATOM	3089	CD2	HIS	B1136	−44.027	−23.881	−11.077	7.24	C
ATOM	3090	ND1	HIS	B1136	−41.892	−24.076	−11.5	8.84	N
ATOM	3091	CE1	HIS	B1136	−42.293	−25.22	−10.952	7.21	C
ATOM	3092	NE2	HIS	B1136	−43.589	−25.13	−10.706	4.2	N
ATOM	3093	C	HIS	B1136	−40.833	−21.147	−10.873	9.44	C
ATOM	3094	O	HIS	B1136	−39.956	−20.823	−11.676	8.14	O
ATOM	3095	N	PRO	B1137	−40.546	−21.776	−9.716	9.87	N
ATOM	3096	CD	PRO	B1137	−41.499	−22.126	−8.63	10.69	C
ATOM	3097	CA	PRO	B1137	−39.187	−22.146	−9.357	10.54	C
ATOM	3098	CB	PRO	B1137	−39.406	−23.019	−8.096	11.7	C
ATOM	3099	CG	PRO	B1137	−40.94	−23.414	−8.112	11.22	C
ATOM	3100	C	PRO	B1137	−38.38	−22.924	−10.41	10.67	C
ATOM	3101	O	PRO	B1137	−37.14	−22.846	−10.452	11.71	O
ATOM	3102	N	ASN	B1138	−39.037	−23.703	−11.254	10.13	N
ATOM	3103	CA	ASN	B1138	−38.29	−24.439	−12.246	9.9	C
ATOM	3104	CB	ASN	B1138	−38.763	−25.865	−12.216	9.42	C
ATOM	3105	CG	ASN	B1138	−38.553	−26.473	−10.929	8.48	C
ATOM	3106	OD1	ASN	B1138	−39.522	−26.863	−10.251	15.21	O
ATOM	3107	ND2	ASN	B1138	−37.308	−26.552	−10.52	8.93	N
ATOM	3108	C	ASN	B1138	−38.452	−23.889	−13.678	10.14	C
ATOM	3109	O	ASN	B1138	−38.23	−24.616	−14.664	8.96	O
ATOM	3110	N	VAL	B1139	−38.924	−22.657	−13.754	9.25	N
ATOM	3111	CA	VAL	B1139	−39.065	−21.923	−15.004	10.14	C
ATOM	3112	CB	VAL	B1139	−40.54	−21.427	−15.265	8.36	C
ATOM	3113	CG1	VAL	B1139	−40.555	−20.35	−16.371	8.76	C
ATOM	3114	CG2	VAL	B1139	−41.434	−22.588	−15.597	5.54	C
ATOM	3115	C	VAL	B1139	−38.13	−20.705	−14.944	10.69	C
ATOM	3116	O	VAL	B1139	−38.19	−19.885	−14.027	10.15	O
ATOM	3117	N	LEU	B1140	−37.28	−20.593	−15.945	12.82	N
ATOM	3118	CA	LEU	B1140	−36.349	−19.437	−16.033	13.46	C
ATOM	3119	CB	LEU	B1140	−35.175	−19.772	−16.941	12.15	C
ATOM	3120	CG	LEU	B1140	−34.135	−18.663	−17.089	15.4	C
ATOM	3121	CD1	LEU	B1140	−33.713	−18.075	−15.707	18.65	C
ATOM	3122	CD2	LEU	B1140	−32.907	−19.173	−17.841	12.12	C
ATOM	3123	C	LEU	B1140	−37.037	−18.175	−16.586	13.98	C
ATOM	3124	O	LEU	B1140	−37.475	−18.138	−17.745	13.7	O
ATOM	3125	N	SER	B1141	−37.085	−17.129	−15.779	14.05	N
ATOM	3126	CA	SER	B1141	−37.655	−15.877	−16.224	14.32	C
ATOM	3127	CB	SER	B1141	−38.768	−15.484	−15.25	13.42	C
ATOM	3128	OG	SER	B1141	−39.906	−16.321	−15.411	13.02	O
ATOM	3129	C	SER	B1141	−36.596	−14.766	−16.233	15.85	C
ATOM	3130	O	SER	B1141	−35.669	−14.739	−15.377	15.5	O
ATOM	3131	N	LEU	B1142	−36.725	−13.818	−17.152	16.95	N
ATOM	3132	CA	LEU	B1142	−35.742	−12.734	−17.138	18.29	C
ATOM	3133	CB	LEU	B1142	−35.65	−12.031	−18.472	20.03	C
ATOM	3134	CG	LEU	B1142	−36.683	−11.192	−19.185	24.65	C
ATOM	3135	CD1	LEU	B1142	−36.465	−11.506	−20.665	29.86	C
ATOM	3136	CD2	LEU	B1142	−38.054	−11.563	−18.827	32.52	C
ATOM	3137	C	LEU	B1142	−35.978	−11.764	−15.999	17.94	C
ATOM	3138	O	LEU	B1142	−37.135	−11.543	−15.618	17.46	O
ATOM	3139	N	LEU	B1143	−34.899	−11.216	−15.437	16.77	N
ATOM	3140	CA	LEU	B1143	−35.012	−10.281	−14.378	16.17	C
ATOM	3141	CB	LEU	B1143	−33.665	−9.964	−13.809	16.58	C
ATOM	3142	CG	LEU	B1143	−32.949	−11.007	−12.956	20.56	C
ATOM	3143	CD1	LEU	B1143	−31.483	−10.458	−12.607	16.47	C
ATOM	3144	CD2	LEU	B1143	−33.812	−11.432	−11.674	18.65	C
ATOM	3145	C	LEU	B1143	−35.629	−9.006	−14.915	17.22	C
ATOM	3146	O	LEU	B1143	−36.534	−8.435	−14.265	18.1	O
ATOM	3147	N	GLY	B1144	−35.191	−8.583	−16.1	15.71	N
ATOM	3148	CA	GLY	B1144	−35.812	−7.492	−16.747	17.55	C
ATOM	3149	C	GLY	B1144	−35.253	−7.37	−18.15	20.81	C
ATOM	3150	O	GLY	B1144	−34.589	−8.28	−18.639	19.87	O
ATOM	3151	N	ILE	B1145	−35.47	−6.183	−18.749	23.32	N
ATOM	3152	CA	ILE	B1145	−35.234	−5.948	−20.142	25.4	C
ATOM	3153	CB	ILE	B1145	−36.486	−6.088	−21.066	25.54	C
ATOM	3154	CG2	ILE	B1145	−37.502	−4.876	−21.036	24.37	C
ATOM	3155	CG1	ILE	B1145	−36.033	−6.509	−22.437	26.57	C
ATOM	3156	CD1	ILE	B1145	−35.844	−5.401	−23.399	27.64	C
ATOM	3157	C	ILE	B1145	−34.341	−4.823	−20.522	26.94	C
ATOM	3158	O	ILE	B1145	−33.335	−5.104	−21.145	31.01	O
ATOM	3159	N	CYS	B1146	−34.585	−3.572	−20.255	26.18	N
ATOM	3160	CA	CYS	B1146	−33.589	−2.676	−20.911	27.81	C
ATOM	3161	CB	CYS	B1146	−32.206	−3.307	−20.8	28.25	C
ATOM	3162	SG	CYS	B1146	−30.968	−2.29	−20.084	39.86	S
ATOM	3163	C	CYS	B1146	−33.773	−2.264	−22.392	25.44	C
ATOM	3164	O	CYS	B1146	−33.198	−2.858	−23.32	23.13	O
ATOM	3165	N	LEU	B1147	−34.518	−1.171	−22.583	25.47	N
ATOM	3166	CA	LEU	B1147	−34.844	−0.701	−23.923	24.48	C
ATOM	3167	CB	LEU	B1147	−36.316	−0.258	−23.981	25.28	C
ATOM	3168	CG	LEU	B1147	−37.558	−1.097	−24.228	25.29	C
ATOM	3169	CD1	LEU	B1147	−37.319	−2.1	−25.298	27.97	C
ATOM	3170	CD2	LEU	B1147	−37.919	−1.835	−23.005	29.1	C
ATOM	3171	C	LEU	B1147	−33.936	0.474	−24.325	24.42	C
ATOM	3172	O	LEU	B1147	−34.008	1.556	−23.735	23.15	O
ATOM	3173	N	ARG	B1148	−33.121	0.273	−25.353	23.32	N
ATOM	3174	CA	ARG	B1148	−32.146	1.268	−25.796	21.75	C
ATOM	3175	CB	ARG	B1148	−30.787	0.593	−25.999	20.87	C
ATOM	3176	CG	ARG	B1148	−30.383	−0.248	−24.849	19.8	C
ATOM	3177	CD	ARG	B1148	−28.89	−0.531	−24.978	18.29	C
ATOM	3178	NE	ARG	B1148	−28.626	−1.545	−25.976	13.37	N
ATOM	3179	CZ	ARG	B1148	−27.407	−1.955	−26.323	16.93	C
ATOM	3180	NH1	ARG	B1148	−26.329	−1.435	−25.77	16.14	N
ATOM	3181	NH2	ARG	B1148	−27.271	−2.924	−27.214	14.69	N
ATOM	3182	C	ARG	B1148	−32.559	1.823	−27.148	21.36	C
ATOM	3183	O	ARG	B1148	−33.208	1.153	−27.92	20.58	O
ATOM	3184	N	SER	B1149	−32.145	3.03	−27.46	20.94	N
ATOM	3185	CA	SER	B1149	−32.415	3.529	−28.803	23.03	C
ATOM	3186	CB	SER	B1149	−32.81	5	−28.785	23.52	C
ATOM	3187	OG	SER	B1149	−32.164	5.688	−27.735	27.64	O
ATOM	3188	C	SER	B1149	−31.197	3.354	−29.678	22.72	C
ATOM	3189	O	SER	B1149	−31.312	3.299	−30.88	24.19	O
ATOM	3190	N	GLU	B1150	−30.026	3.218	−29.085	22.05	N
ATOM	3191	CA	GLU	B1150	−28.968	2.623	−29.868	22.66	C
ATOM	3192	CB	GLU	B1150	−27.718	3.501	−29.894	23.8	C
ATOM	3193	CG	GLU	B1150	−28.005	4.95	−30.295	30	C
ATOM	3194	CD	GLU	B1150	−26.698	5.665	−30.456	40.1	C
ATOM	3195	OE1	GLU	B1150	−25.743	5.351	−29.649	44.42	O
ATOM	3196	OE2	GLU	B1150	−26.6	6.507	−31.39	41.6	O
ATOM	3197	C	GLU	B1150	−28.647	1.196	−29.458	20.41	C
ATOM	3198	O	GLU	B1150	−28.415	0.889	−28.303	18.54	O
ATOM	3199	N	GLY	B1151	−28.638	0.337	−30.449	18.5	N
ATOM	3200	CA	GLY	B1151	−28.221	−1.006	−30.23	17.16	C
ATOM	3201	C	GLY	B1151	−29.443	−1.827	−29.963	16.88	C
ATOM	3202	O	GLY	B1151	−30.511	−1.283	−29.731	17.89	O
ATOM	3203	N	SER	B1152	−29.291	−3.138	−30.001	16.38	N
ATOM	3204	CA	SER	B1152	−30.385	−4.035	−29.793	15.73	C
ATOM	3205	CB	SER	B1152	−29.973	−5.418	−30.296	16.22	C
ATOM	3206	OG	SER	B1152	−29.949	−5.455	−31.709	17.36	O
ATOM	3207	C	SER	B1152	−30.776	−4.049	−28.296	15.34	C
ATOM	3208	O	SER	B1152	−29.979	−3.74	−27.395	14.35	O
ATOM	3209	N	PRO	B1153	−32.021	−4.399	−28.026	15.04	N
ATOM	3210	CD	PRO	B1153	−33.116	−4.774	−28.945	13.23	C
ATOM	3211	CA	PRO	B1153	−32.397	−4.431	−26.604	15.68	C
ATOM	3212	CB	PRO	B1153	−33.902	−4.764	−26.616	14.25	C
ATOM	3213	CG	PRO	B1153	−34.335	−4.63	−28.038	14.42	C
ATOM	3214	C	PRO	B1153	−31.597	−5.479	−25.808	16.25	C
ATOM	3215	O	PRO	B1153	−31.076	−6.412	−26.374	18.1	O
ATOM	3216	N	LEU	B1154	−31.453	−5.274	−24.505	16.93	N
ATOM	3217	CA	LEU	B1154	−30.681	−6.147	−23.64	15.03	C
ATOM	3218	CB	LEU	B1154	−29.958	−5.32	−22.638	15.08	C
ATOM	3219	CG	LEU	B1154	−28.563	−4.899	−23.086	18.21	C
ATOM	3220	CD1	LEU	B1154	−28.269	−5.2	−24.556	12.75	C
ATOM	3221	CD2	LEU	B1154	−28.33	−3.462	−22.734	14.99	C
ATOM	3222	C	LEU	B1154	−31.623	−7.012	−22.876	14.73	C
ATOM	3223	O	LEU	B1154	−32.705	−6.607	−22.574	13.4	O
ATOM	3224	N	VAL	B1155	−31.199	−8.227	−22.585	13.87	N
ATOM	3225	CA	VAL	B1155	−32.019	−9.147	−21.863	13.52	C
ATOM	3226	CB	VAL	B1155	−32.349	−10.322	−22.832	14.55	C
ATOM	3227	CG1	VAL	B1155	−31.496	−11.534	−22.58	14.03	C
ATOM	3228	CG2	VAL	B1155	−33.823	−10.609	−22.785	18.15	C
ATOM	3229	C	VAL	B1155	−31.204	−9.502	−20.622	11.35	C
ATOM	3230	O	VAL	B1155	−30.018	−9.713	−20.715	11.04	O
ATOM	3231	N	VAL	B1156	−31.81	−9.371	−19.455	11.53	N
ATOM	3232	CA	VAL	B1156	−31.118	−9.533	−18.172	11.14	C
ATOM	3233	CB	VAL	B1156	−31.192	−8.245	−17.256	12.17	C
ATOM	3234	CG1	VAL	B1156	−30.313	−8.371	−15.994	10.66	C
ATOM	3235	CG2	VAL	B1156	−30.748	−6.969	−18.047	10.76	C
ATOM	3236	C	VAL	B1156	−31.722	−10.771	−17.483	12.56	C
ATOM	3237	O	VAL	B1156	−32.97	−10.885	−17.293	12.88	O
ATOM	3238	N	LEU	B1157	−30.847	−11.733	−17.187	11.87	N
ATOM	3239	CA	LEU	B1157	−31.252	−12.933	−16.52	10.49	C
ATOM	3240	CB	LEU	B1157	−31.067	−14.103	−17.467	11.83	C
ATOM	3241	CG	LEU	B1157	−32.163	−14.083	−18.539	10.1	C
ATOM	3242	CD1	LEU	B1157	−31.622	−13.381	−19.796	10.35	C
ATOM	3243	CD2	LEU	B1157	−32.674	−15.419	−18.81	8.6	C
ATOM	3244	C	LEU	B1157	−30.496	−13.192	−15.263	10.83	C
ATOM	3245	O	LEU	B1157	−29.321	−12.728	−15.103	11.75	O
ATOM	3246	N	PRO	B1158	−31.122	−13.969	−14.366	10.41	N
ATOM	3247	CD	PRO	B1158	−32.504	−14.489	−14.459	9.43	C
ATOM	3248	CA	PRO	B1158	−30.416	−14.389	−13.147	9.97	C
ATOM	3249	CB	PRO	B1158	−31.426	−15.321	−12.386	8.9	C
ATOM	3250	CG	PRO	B1158	−32.711	−15.132	−13.099	11.26	C
ATOM	3251	C	PRO	B1158	−29.15	−15.139	−13.487	10.1	C
ATOM	3252	O	PRO	B1158	−29.076	−15.847	−14.493	9.14	O
ATOM	3253	N	TYR	B1159	−28.138	−14.912	−12.675	11.58	N
ATOM	3254	CA	TYR	B1159	−26.951	−15.703	−12.742	13.59	C
ATOM	3255	CB	TYR	B1159	−25.849	−15.174	−11.787	13.68	C
ATOM	3256	CG	TYR	B1159	−24.551	−15.855	−12.053	11.81	C
ATOM	3257	CD1	TYR	B1159	−24.019	−15.89	−13.372	10.98	C
ATOM	3258	CE1	TYR	B1159	−22.863	−16.554	−13.655	13.01	C
ATOM	3259	CD2	TYR	B1159	−23.877	−16.487	−11.057	9.14	C
ATOM	3260	CE2	TYR	B1159	−22.661	−17.182	−11.319	13.66	C
ATOM	3261	CZ	TYR	B1159	−22.136	−17.193	−12.616	14.72	C
ATOM	3262	OH	TYR	B1159	−20.946	−17.909	−12.902	14.73	O
ATOM	3263	C	TYR	B1159	−27.242	−17.175	−12.476	15.39	C
ATOM	3264	O	TYR	B1159	−27.802	−17.531	−11.415	15.7	O
ATOM	3265	N	MET	B1160	−26.915	−18.017	−13.469	16.37	N
ATOM	3266	CA	MET	B1160	−27.146	−19.454	−13.38	17.49	C
ATOM	3267	CB	MET	B1160	−27.924	−20.031	−14.581	16.46	C
ATOM	3268	CG	MET	B1160	−29.345	−19.722	−14.506	18.94	C
ATOM	3269	SD	MET	B1160	−30.35	−20.465	−13.143	24.07	S
ATOM	3270	CE	MET	B1160	−30.719	−19.019	−12.29	18.12	C
ATOM	3271	C	MET	B1160	−25.792	−20.045	−13.308	17.29	C
ATOM	3272	O	MET	B1160	−25.206	−20.378	−14.31	18	O
ATOM	3273	N	LYS	B1161	−25.318	−20.191	−12.09	18.45	N
ATOM	3274	CA	LYS	B1161	−23.951	−20.603	−11.824	18.74	C
ATOM	3275	CB	LYS	B1161	−23.776	−20.791	−10.319	19.72	C
ATOM	3276	CG	LYS	B1161	−22.35	−21.047	−9.981	23.56	C
ATOM	3277	CD	LYS	B1161	−22.224	−21.793	−8.725	29.41	C
ATOM	3278	CE	LYS	B1161	−20.946	−22.585	−8.754	30.13	C
ATOM	3279	NZ	LYS	B1161	−20.265	−22.285	−7.519	27.21	N
ATOM	3280	C	LYS	B1161	−23.5	−21.856	−12.55	18.52	C
ATOM	3281	O	LYS	B1161	−22.321	−21.926	−12.981	18.11	O
ATOM	3282	N	HIS	B1162	−24.405	−22.857	−12.644	17.41	N
ATOM	3283	CA	HIS	B1162	−24.078	−24.115	−13.34	16.48	C
ATOM	3284	CB	HIS	B1162	−24.523	−25.36	−12.589	16.27	C
ATOM	3285	CG	HIS	B1162	−23.83	−25.477	−11.266	16.91	C
ATOM	3286	CD2	HIS	B1162	−24.284	−25.341	−10.003	16.13	C
ATOM	3287	ND1	HIS	B1162	−22.46	−25.683	−11.166	17.49	N
ATOM	3288	CE1	HIS	B1162	−22.101	−25.672	−9.901	14.86	C
ATOM	3289	NE2	HIS	B1162	−23.179	−25.435	−9.173	20.15	N
ATOM	3290	C	HIS	B1162	−24.306	−24.198	−14.829	15.43	C
ATOM	3291	O	HIS	B1162	−23.91	−25.177	−15.453	16.77	O
ATOM	3292	N	GLY	B1163	−24.847	−23.142	−15.4	14.23	N
ATOM	3293	CA	GLY	B1163	−25.038	−23.084	−16.822	14.76	C
ATOM	3294	C	GLY	B1163	−26.047	−24.096	−17.255	15.34	C
ATOM	3295	O	GLY	B1163	−26.976	−24.428	−16.501	16.36	O
ATOM	3296	N	ASP	B1164	−25.917	−24.588	−18.48	16.34	N
ATOM	3297	CA	ASP	B1164	−26.945	−25.538	−18.957	18.41	C
ATOM	3298	CB	ASP	B1164	−27.121	−25.598	−20.496	18.9	C
ATOM	3299	CG	ASP	B1164	−25.891	−26.048	−21.199	21.41	C
ATOM	3300	OD1	ASP	B1164	−24.914	−25.301	−21.18	28.55	O
ATOM	3301	OD2	ASP	B1164	−25.853	−27.138	−21.785	29.67	O
ATOM	3302	C	ASP	B1164	−26.682	−26.928	−18.37	17.3	C
ATOM	3303	O	ASP	B1164	−25.566	−27.291	−18.054	16	O
ATOM	3304	N	LEU	B1165	−27.774	−27.648	−18.211	17.7	N
ATOM	3305	CA	LEU	B1165	−27.81	−28.965	−17.592	18.17	C
ATOM	3306	CB	LEU	B1165	−29.266	−29.359	−17.491	17.68	C
ATOM	3307	CG	LEU	B1165	−29.707	−30.465	−16.606	19.62	C
ATOM	3308	CD1	LEU	B1165	−29.32	−30.147	−15.204	16.24	C
ATOM	3309	CD2	LEU	B1165	−31.247	−30.479	−16.754	18.87	C
ATOM	3310	C	LEU	B1165	−27.036	−29.93	−18.463	18.24	C
ATOM	3311	O	LEU	B1165	−26.37	−30.857	−17.984	19.49	O
ATOM	3312	O	GLN	B1166	−24.217	−31.36	−20.284	19.01	O
ATOM	3313	N	GLN	B1166	−27.018	−29.582	−19.74	20
ATOM	3314	CA	GLN	B1166	−26.241	−30.315	−20.685	20
ATOM	3315	C	GLN	B1166	−24.776	−30.339	−20.427	20
ATOM	3316	CB	GLN	B1166	−26.63	−30.114	−22.143	20
ATOM	3317	CG	GLN	B1166	−26.508	−31.277	−22.946	20
ATOM	3318	CD	GLN	B1166	−25.18	−31.389	−23.537	20
ATOM	3319	OE1	GLN	B1166	−24.559	−30.388	−23.785	20
ATOM	3320	NE2	GLN	B1166	−24.739	−32.604	−23.846	20
ATOM	3321	N	ASN	B1167	−24.187	−29.18	−20.32	17.24	N
ATOM	3322	CA	ASN	B1167	−22.791	−29.026	−20.108	16.95	C
ATOM	3323	CB	ASN	B1167	−22.376	−27.567	−20.263	20.74	C
ATOM	3324	CG	ASN	B1167	−22.142	−27.188	−21.735	27.08	C
ATOM	3325	OD1	ASN	B1167	−22.25	−26.022	−22.133	31.53	O
ATOM	3326	ND2	ASN	B1167	−21.845	−28.203	−22.554	33.46	N
ATOM	3327	C	ASN	B1167	−22.438	−29.459	−18.73	15.8	C
ATOM	3328	O	ASN	B1167	−21.324	−29.908	−18.491	15.55	O
ATOM	3329	N	PHE	B1168	−23.407	−29.357	−17.815	13.95	N
ATOM	3330	CA	PHE	B1168	−23.214	−29.806	−16.451	10.88	C
ATOM	3331	CB	PHE	B1168	−24.361	−29.366	−15.595	11.09	C
ATOM	3332	CG	PHE	B1168	−24.158	−29.635	−14.117	11.13	C
ATOM	3333	CD1	PHE	B1168	−23.363	−28.811	−13.353	10.57	C
ATOM	3334	CD2	PHE	B1168	−24.695	−30.78	−13.517	12.93	C
ATOM	3335	CE1	PHE	B1168	−23.163	−29.081	−11.984	10.74	C
ATOM	3336	CE2	PHE	B1168	−24.481	−31.042	−12.106	11.1	C
ATOM	3337	CZ	PHE	B1168	−23.755	−30.167	−11.369	8.04	C
ATOM	3338	C	PHE	B1168	−22.949	−31.297	−16.311	10.98	C
ATOM	3339	O	PHE	B1168	−21.953	−31.673	−15.737	11.29	O
ATOM	3340	N	ILE	B1169	−23.815	−32.144	−16.851	11.3	N
ATOM	3341	CA	ILE	B1169	−23.729	−33.567	−16.649	12.11	C
ATOM	3342	CB	ILE	B1169	−25.098	−34.24	−16.912	12.31	C
ATOM	3343	CG2	ILE	B1169	−26.225	−33.639	−16.073	10.67	C
ATOM	3344	CG1	ILE	B1169	−25.46	−34.188	−18.407	13.38	C
ATOM	3345	CD1	ILE	B1169	−26.855	−34.265	−18.702	10.53	C
ATOM	3346	C	ILE	B1169	−22.594	−34.162	−17.527	15.08	C
ATOM	3347	O	ILE	B1169	−22.133	−35.264	−17.321	15.78	O
ATOM	3348	N	ARG	B1170	−22.087	−33.403	−18.478	18.02	N
ATOM	3349	CA	ARG	B1170	−20.955	−33.871	−19.3	20.11	C
ATOM	3350	CB	ARG	B1170	−20.93	−33.178	−20.633	20.14	C
ATOM	3351	CG	ARG	B1170	−21.93	−33.631	−21.507	25.59	C
ATOM	3352	CD	ARG	B1170	−21.717	−32.821	−22.713	37.19	C
ATOM	3353	NE	ARG	B1170	−20.989	−33.521	−23.777	45.62	N
ATOM	3354	CZ	ARG	B1170	−20.98	−34.84	−23.999	48.56	C
ATOM	3355	NH1	ARG	B1170	−21.656	−35.705	−23.257	49.01	N
ATOM	3356	NH2	ARG	B1170	−20.276	−35.287	−25.009	53.39	N
ATOM	3357	C	ARG	B1170	−19.646	−33.526	−18.713	19.84	C
ATOM	3358	O	ARG	B1170	−18.677	−34.145	−19.024	20.06	O
ATOM	3359	N	ASN	B1171	−19.618	−32.485	−17.907	21.49	N
ATOM	3360	CA	ASN	B1171	−18.43	−32.106	−17.182	22.67	C
ATOM	3361	CB	ASN	B1171	−18.795	−30.932	−16.286	23.22	C
ATOM	3362	CG	ASN	B1171	−17.572	−30.201	−15.733	23.88	C
ATOM	3363	OD1	ASN	B1171	−16.55	−30.813	−15.4	20.38	O
ATOM	3364	ND2	ASN	B1171	−17.694	−28.874	−15.624	20.34	N
ATOM	3365	C	ASN	B1171	−17.885	−33.289	−16.354	24.16	C
ATOM	3366	O	ASN	B1171	−18.536	−33.819	−15.452	22.97	O
ATOM	3367	N	GLU	B1172	−16.678	−33.712	−16.71	26.75	N
ATOM	3368	CA	GLU	B1172	−16.009	−34.843	−16.074	28.61	C
ATOM	3369	CB	GLU	B1172	−14.887	−35.381	−16.95	29.06	C
ATOM	3370	CG	GLU	B1172	−15.267	−35.539	−18.398	35.59	C
ATOM	3371	CD	GLU	B1172	−14.865	−34.295	−19.239	43.46	C
ATOM	3372	OE1	GLU	B1172	−15.514	−33.222	−19.077	43.38	O
ATOM	3373	OE2	GLU	B1172	−13.887	−34.403	−20.063	47.72	O
ATOM	3374	C	GLU	B1172	−15.483	−34.444	−14.708	27.92	C
ATOM	3375	O	GLU	B1172	−15.003	−35.266	−13.956	29.83	O
ATOM	3376	N	THR	B1173	−15.636	−33.183	−14.372	27.32	N
ATOM	3377	CA	THR	B1173	−15.43	−32.68	−13.012	26.3	C
ATOM	3378	CB	THR	B1173	−15.075	−31.202	−13.127	26.43	C
ATOM	3379	OG1	THR	B1173	−13.63	−31.125	−13.229	30.48	O
ATOM	3380	CG2	THR	B1173	−15.66	−30.328	−12.025	23.88	C
ATOM	3381	C	THR	B1173	−16.558	−32.937	−11.996	24.95	C
ATOM	3382	O	THR	B1173	−16.435	−32.607	−10.82	24.21	O
ATOM	3383	N	HIS	B1174	−17.62	−33.571	−12.472	24.38	N
ATOM	3384	CA	HIS	B1174	−18.893	−33.624	−11.786	25.17	C
ATOM	3385	CB	HIS	B1174	−20.018	−32.862	−12.503	25.48	C
ATOM	3386	CG	HIS	B1174	−19.887	−31.375	−12.444	29.5	C
ATOM	3387	CD2	HIS	B1174	−19.494	−30.546	−11.44	31.51	C
ATOM	3388	ND1	HIS	B1174	−20.152	−30.563	−13.535	33.78	N
ATOM	3389	CE1	HIS	B1174	−19.929	−29.297	−13.204	33.6	C
ATOM	3390	NE2	HIS	B1174	−19.518	−29.261	−11.942	33.57	N
ATOM	3391	C	HIS	B1174	−19.237	−35.06	−11.806	24.6	C
ATOM	3392	O	HIS	B1174	−19.048	−35.739	−12.822	25	O
ATOM	3393	N	ASN	B1175	−19.709	−35.531	−10.662	23.47	N
ATOM	3394	CA	ASN	B1175	−20.013	−36.93	−10.504	22.28	C
ATOM	3395	CB	ASN	B1175	−18.961	−37.601	−9.664	20.86	C
ATOM	3396	CG	ASN	B1175	−17.621	−37.656	−10.387	19.89	C
ATOM	3397	OD1	ASN	B1175	−17.519	−38.384	−11.343	22.05	O
ATOM	3398	ND2	ASN	B1175	−16.619	−36.852	−9.971	16.3	N
ATOM	3399	C	ASN	B1175	−21.423	−37.021	−9.946	23.32	C
ATOM	3400	O	ASN	B1175	−21.635	−37.437	−8.785	24.86	O
ATOM	3401	N	PRO	B1176	−22.414	−36.616	−10.773	22.41	N
ATOM	3402	CD	PRO	B1176	−22.338	−36.215	−12.177	22.32	C
ATOM	3403	CA	PRO	B1176	−23.771	−36.663	−10.305	23.02	C
ATOM	3404	CB	PRO	B1176	−24.534	−35.94	−11.415	22.38	C
ATOM	3405	CG	PRO	B1176	−23.765	−36.251	−12.623	22.63	C
ATOM	3406	C	PRO	B1176	−24.193	−38.161	−10.156	23.36	C
ATOM	3407	O	PRO	B1176	−23.874	−38.971	−11.045	23.72	O
ATOM	3408	N	THR	B1177	−24.891	−38.522	−9.066	22.41	N
ATOM	3409	CA	THR	B1177	−25.329	−39.894	−8.913	22.82	C
ATOM	3410	CB	THR	B1177	−25.906	−40.189	−7.496	23.27	C
ATOM	3411	OG1	THR	B1177	−26.923	−39.244	−7.205	25.75	O
ATOM	3412	CG2	THR	B1177	−24.846	−40.122	−6.402	24.8	C
ATOM	3413	C	THR	B1177	−26.445	−40.103	−9.907	21.38	C
ATOM	3414	O	THR	B1177	−27.015	−39.122	−10.377	22.43	O
ATOM	3415	N	VAL	B1178	−26.814	−41.362	−10.162	20.22	N
ATOM	3416	CA	VAL	B1178	−28.127	−41.672	−10.826	18.98	C
ATOM	3417	CB	VAL	B1178	−28.384	−43.198	−10.992	18.34	C
ATOM	3418	CG1	VAL	B1178	−29.81	−43.489	−11.15	15.54	C
ATOM	3419	CG2	VAL	B1178	−27.665	−43.704	−12.223	21.1	C
ATOM	3420	C	VAL	B1178	−29.339	−40.965	−10.181	17.51	C
ATOM	3421	O	VAL	B1178	−30.123	−40.409	−10.878	18.57	O
ATOM	3422	N	LYS	B1179	−29.475	−40.98	−8.856	17.04	N
ATOM	3423	CA	LYS	B1179	−30.533	−40.228	−8.217	16.95	C
ATOM	3424	CB	LYS	B1179	−30.434	−40.373	−6.733	17.15	C
ATOM	3425	CG	LYS	B1179	−31.75	−40.037	−6.122	20.25	C
ATOM	3426	CD	LYS	B1179	−31.633	−39.315	−4.835	21.96	C
ATOM	3427	CE	LYS	B1179	−32.453	−40.04	−3.77	20.85	C
ATOM	3428	NZ	LYS	B1179	−33.846	−39.761	−3.562	19.21	N
ATOM	3429	C	LYS	B1179	−30.573	−38.71	−8.511	16.1	C
ATOM	3430	O	LYS	B1179	−31.638	−38.131	−8.72	14.21	O
ATOM	3431	N	ASP	B1180	−29.418	−38.055	−8.42	16.12	N
ATOM	3432	CA	ASP	B1180	−29.33	−36.644	−8.707	16.31	C
ATOM	3433	CB	ASP	B1180	−27.843	−36.248	−8.692	19.77	C
ATOM	3434	CG	ASP	B1180	−27.216	−36.236	−7.291	22.65	C
ATOM	3435	OD1	ASP	B1180	−25.969	−36.124	−7.281	24.69	O
ATOM	3436	OD2	ASP	B1180	−27.935	−36.383	−6.262	27.87	O
ATOM	3437	C	ASP	B1180	−29.828	−36.325	−10.131	14.91	C
ATOM	3438	O	ASP	B1180	−30.496	−35.363	−10.344	13.63	O
ATOM	3439	N	LEU	B1181	−29.413	−37.128	−11.104	13.93	N
ATOM	3440	CA	LEU	B1181	−29.865	−36.965	−12.49	13.81	C
ATOM	3441	CB	LEU	B1181	−29.123	−37.972	−13.366	13.28	C
ATOM	3442	CG	LEU	B1181	−27.901	−37.653	−14.197	9.73	C
ATOM	3443	CD1	LEU	B1181	−27.341	−36.303	−14.092	9.56	C
ATOM	3444	CD2	LEU	B1181	−26.891	−38.75	−13.897	10.5	C
ATOM	3445	C	LEU	B1181	−31.377	−37.123	−12.681	13.36	C
ATOM	3446	O	LEU	B1181	−32.047	−36.419	−13.479	14.36	O
ATOM	3447	N	ILE	B1182	−31.922	−38.037	−11.915	13.26	N
ATOM	3448	CA	ILE	B1182	−33.364	−38.243	−11.922	14.38	C
ATOM	3449	CB	ILE	B1182	−33.811	−39.543	−11.232	14.16	C
ATOM	3450	CG2	ILE	B1182	−35.3	−39.644	−11.367	14.28	C
ATOM	3451	CG1	ILE	B1182	−33.124	−40.796	−11.852	16.35	C
ATOM	3452	CD1	ILE	B1182	−33.51	−42.162	−11.15	13.84	C
ATOM	3453	C	ILE	B1182	−34.013	−37.034	−11.248	12.99	C
ATOM	3454	O	ILE	B1182	−35.112	−36.592	−11.651	13.57	O
ATOM	3455	N	GLY	B1183	−33.296	−36.464	−10.297	11.14	N
ATOM	3456	CA	GLY	B1183	−33.788	−35.294	−9.552	11.95	C
ATOM	3457	C	GLY	B1183	−33.881	−34.082	−10.45	11.52	C
ATOM	3458	O	GLY	B1183	−34.842	−33.342	−10.372	12.52	O
ATOM	3459	N	PHE	B1184	−32.878	−33.895	−11.321	11.73	N
ATOM	3460	CA	PHE	B1184	−32.913	−32.822	−12.365	11.3	C
ATOM	3461	CB	PHE	B1184	−31.571	−32.746	−13.138	10.96	C
ATOM	3462	CG	PHE	B1184	−30.39	−32.459	−12.273	11.49	C
ATOM	3463	CD1	PHE	B1184	−30.525	−31.643	−11.109	13.87	C
ATOM	3464	CD2	PHE	B1184	−29.157	−32.957	−12.595	11.09	C
ATOM	3465	CE1	PHE	B1184	−29.436	−31.36	−10.293	9.36	C
ATOM	3466	CE2	PHE	B1184	−28.055	−32.649	−11.827	13.76	C
ATOM	3467	CZ	PHE	B1184	−28.201	−31.849	−10.646	13.97	C
ATOM	3468	C	PHE	B1184	−34.078	−33.017	−13.34	10.31	C
ATOM	3469	O	PHE	B1184	−34.762	−32.09	−13.67	9.73	O
ATOM	3470	N	GLY	B1185	−34.284	−34.259	−13.786	11.17	N
ATOM	3471	CA	GLY	B1185	−35.405	−34.585	−14.702	10.09	C
ATOM	3472	C	GLY	B1185	−36.727	−34.315	−14.063	9.24	C
ATOM	3473	O	GLY	B1185	−37.591	−33.763	−14.709	10.87	O
ATOM	3474	N	LEU	B1186	−36.874	−34.646	−12.779	8.52	N
ATOM	3475	CA	LEU	B1186	−38.075	−34.268	−11.99	7.28	C
ATOM	3476	CB	LEU	B1186	−38.072	−34.915	−10.56	6.85	C
ATOM	3477	CG	LEU	B1186	−39.207	−34.583	−9.582	5.42	C
ATOM	3478	CD1	LEU	B1186	−40.59	−34.846	−10.16	2	C
ATOM	3479	CD2	LEU	B1186	−38.918	−35.353	−8.286	3.95	C
ATOM	3480	C	LEU	B1186	−38.308	−32.767	−11.899	8.57	C
ATOM	3481	O	LEU	B1186	−39.442	−32.313	−12.096	12.45	O
ATOM	3482	N	GLN	B1187	−37.292	−31.971	−11.621	8.71	N
ATOM	3483	CA	GLN	B1187	−37.472	−30.518	−11.66	10.1	C
ATOM	3484	CB	GLN	B1187	−36.18	−29.843	−11.25	11.08	C
ATOM	3485	CG	GLN	B1187	−35.743	−30.165	−9.871	11.17	C
ATOM	3486	CD	GLN	B1187	−34.601	−29.239	−9.455	13.84	C
ATOM	3487	OE1	GLN	B1187	−34.721	−28.008	−9.538	14.08	O
ATOM	3488	NE2	GLN	B1187	−33.476	−29.829	−9.045	15.84	N
ATOM	3489	C	GLN	B1187	−37.887	−29.991	−13.027	9.54	C
ATOM	3490	O	GLN	B1187	−38.666	−29.035	−13.151	11.12	O
ATOM	3491	N	VAL	B1188	−37.347	−30.555	−14.079	7.7	N
ATOM	3492	CA	VAL	B1188	−37.784	−30.081	−15.428	7.36	C
ATOM	3493	CB	VAL	B1188	−36.91	−30.734	−16.527	6.86	C
ATOM	3494	CG1	VAL	B1188	−37.338	−30.385	−17.939	3.33	C
ATOM	3495	CG2	VAL	B1188	−35.458	−30.404	−16.278	2	C
ATOM	3496	C	VAL	B1188	−39.245	−30.414	−15.687	8.4	C
ATOM	3497	O	VAL	B1188	−39.952	−29.679	−16.346	9.43	O
ATOM	3498	N	ALA	B1189	−39.704	−31.547	−15.173	9.65	N
ATOM	3499	CA	ALA	B1189	−41.041	−31.997	−15.446	9.84	C
ATOM	3500	CB	ALA	B1189	−41.181	−33.479	−15.04	9.75	C
ATOM	3501	C	ALA	B1189	−41.986	−31.113	−14.676	10.41	C
ATOM	3502	O	ALA	B1189	−43.117	−30.837	−15.14	11.55	O
ATOM	3503	N	LYS	B1190	−41.51	−30.588	−13.543	10.99	N
ATOM	3504	CA	LYS	B1190	−42.341	−29.679	−12.721	12.28	C
ATOM	3505	CB	LYS	B1190	−41.775	−29.502	−11.359	12.77	C
ATOM	3506	CG	LYS	B1190	−41.7	−30.717	−10.574	12.61	C
ATOM	3507	CD	LYS	B1190	−41.08	−30.362	−9.251	15.08	C
ATOM	3508	CE	LYS	B1190	−41.464	−31.401	−8.288	19.04	C
ATOM	3509	NZ	LYS	B1190	−40.942	−30.924	−6.946	25.19	N
ATOM	3510	C	LYS	B1190	−42.506	−28.293	−13.3	11.94	C
ATOM	3511	O	LYS	B1190	−43.611	−27.659	−13.176	14.36	O
ATOM	3512	N	GLY	B1191	−41.439	−27.806	−13.918	10.85	N
ATOM	3513	CA	GLY	B1191	−41.463	−26.55	−14.72	8.71	C
ATOM	3514	C	GLY	B1191	−42.34	−26.777	−15.935	8	C
ATOM	3515	O	GLY	B1191	−43.19	−25.951	−16.236	8.54	O
ATOM	3516	N	MET	B1192	−42.205	−27.936	−16.602	7.97	N
ATOM	3517	CA	MET	B1192	−42.971	−28.222	−17.854	8.25	C
ATOM	3518	CB	MET	B1192	−42.501	−29.543	−18.507	8.8	C
ATOM	3519	CG	MET	B1192	−41.361	−29.451	−19.436	11.12	C
ATOM	3520	SD	MET	B1192	−41.314	−27.838	−20.283	18	S
ATOM	3521	CE	MET	B1192	−42.181	−27.995	−21.823	11.46	C
ATOM	3522	C	MET	B1192	−44.437	−28.371	−17.563	7.29	C
ATOM	3523	O	MET	B1192	−45.335	−27.941	−18.337	7.17	O
ATOM	3524	N	LYS	B1193	−44.691	−29.027	−16.451	7.48	N
ATOM	3525	CA	LYS	B1193	−46.097	−29.193	−15.988	9.21	C
ATOM	3526	CB	LYS	B1193	−46.127	−30.004	−14.713	7.62	C
ATOM	3527	CG	LYS	B1193	−47.429	−30.099	−14.098	7.45	C
ATOM	3528	CD	LYS	B1193	−47.198	−30.498	−12.681	10.42	C
ATOM	3529	CE	LYS	B1193	−48.442	−30.778	−12.021	14.83	C
ATOM	3530	NZ	LYS	B1193	−48.088	−30.966	−10.58	22.35	N
ATOM	3531	C	LYS	B1193	−46.75	−27.808	−15.773	8.79	C
ATOM	3532	O	LYS	B1193	−47.911	−27.589	−16.18	9.23	O
ATOM	3533	N	TYR	B1194	−45.974	−26.879	−15.186	9.48	N
ATOM	3534	CA	TYR	B1194	−46.435	−25.503	−15.04	10.02	C
ATOM	3535	CB	TYR	B1194	−45.485	−24.704	−14.143	10.13	C
ATOM	3536	CG	TYR	B1194	−45.798	−23.213	−14.084	9.08	C
ATOM	3537	CD1	TYR	B1194	−46.675	−22.706	−13.116	7.43	C
ATOM	3538	CE1	TYR	B1194	−46.958	−21.357	−13.076	9.59	C
ATOM	3539	CD2	TYR	B1194	−45.186	−22.323	−14.971	5.88	C
ATOM	3540	CE2	TYR	B1194	−45.424	−20.998	−14.942	7.13	C
ATOM	3541	CZ	TYR	B1194	−46.329	−20.48	−14.019	12.26	C
ATOM	3542	OH	TYR	B1194	−46.625	−19.107	−14.038	11.64	O
ATOM	3543	C	TYR	B1194	−46.645	−24.811	−16.41	10.44	C
ATOM	3544	O	TYR	B1194	−47.777	−24.356	−16.745	11.5	O
ATOM	3545	N	LEU	B1195	−45.606	−24.771	−17.235	9.91	N
ATOM	3546	CA	LEU	B1195	−45.724	−24.136	−18.545	10.18	C
ATOM	3547	CB	LEU	B1195	−44.469	−24.386	−19.357	11.31	C
ATOM	3548	CG	LEU	B1195	−43.235	−23.478	−19.274	8.14	C
ATOM	3549	CD1	LEU	B1195	−43.559	−22.302	−18.412	11.05	C
ATOM	3550	CD2	LEU	B1195	−42.091	−24.231	−18.759	11.77	C
ATOM	3551	C	LEU	B1195	−46.878	−24.77	−19.256	12.15	C
ATOM	3552	O	LEU	B1195	−47.733	−24.094	−19.829	12.53	O
ATOM	3553	N	ALA	B1196	−46.971	−26.096	−19.173	12.77	N
ATOM	3554	CA	ALA	B1196	−48.058	−26.765	−19.89	13.11	C
ATOM	3555	CB	ALA	B1196	−47.874	−28.244	−19.778	14.13	C
ATOM	3556	C	ALA	B1196	−49.452	−26.395	−19.441	13.63	C
ATOM	3557	O	ALA	B1196	−50.383	−26.608	−20.204	15.78	O
ATOM	3558	N	SER	B1197	−49.639	−25.911	−18.196	14.48	N
ATOM	3559	CA	SER	B1197	−50.99	−25.572	−17.664	12.95	C
ATOM	3560	CB	SER	B1197	−51.017	−25.758	−16.192	12.98	C
ATOM	3561	OG	SER	B1197	−50.055	−24.902	−15.565	17.5	O
ATOM	3562	C	SER	B1197	−51.308	−24.121	−18.035	12.58	C
ATOM	3563	O	SER	B1197	−52.442	−23.652	−17.985	12.68	O
ATOM	3564	N	LYS	B1198	−50.286	−23.398	−18.441	13.13	N
ATOM	3565	CA	LYS	B1198	−50.489	−22.056	−18.999	13.05	C
ATOM	3566	CB	LYS	B1198	−49.29	−21.187	−18.707	12.52	C
ATOM	3567	CG	LYS	B1198	−48.959	−21.126	−17.249	12.04	C
ATOM	3568	CD	LYS	B1198	−50.273	−20.967	−16.457	13.08	C
ATOM	3569	CE	LYS	B1198	−49.936	−21.012	−14.985	17.36	C
ATOM	3570	NZ	LYS	B1198	−51.129	−20.589	−14.245	21.98	N
ATOM	3571	C	LYS	B1198	−50.649	−22.161	−20.484	13.41	C
ATOM	3572	O	LYS	B1198	−50.651	−21.132	−21.155	13.33	O
ATOM	3573	N	LYS	B1199	−50.755	−23.418	−20.98	13.76	N
ATOM	3574	CA	LYS	B1199	−50.809	−23.725	−22.414	14.88	C
ATOM	3575	CB	LYS	B1199	−52.085	−23.141	−23.005	14.84	C
ATOM	3576	CG	LYS	B1199	−53.317	−23.86	−22.454	21.78	C
ATOM	3577	CD	LYS	B1199	−54.523	−22.873	−22.192	33.81	C
ATOM	3578	CE	LYS	B1199	−55.034	−22.06	−23.489	35.48	C
ATOM	3579	NZ	LYS	B1199	−55.173	−22.933	−24.757	39.92	N
ATOM	3580	C	LYS	B1199	−49.553	−23.275	−23.214	14.93	C
ATOM	3581	O	LYS	B1199	−49.62	−22.835	−24.357	14.95	O
ATOM	3582	N	PHE	B1200	−48.393	−23.358	−22.585	14.67	N
ATOM	3583	CA	PHE	B1200	−47.225	−22.929	−23.253	14.24	C
ATOM	3584	CB	PHE	B1200	−46.337	−22.153	−22.308	12.15	C
ATOM	3585	CG	PHE	B1200	−45.039	−21.734	−22.94	11.68	C
ATOM	3586	CD1	PHE	B1200	−43.852	−22.502	−22.753	12.56	C
ATOM	3587	CD2	PHE	B1200	−44.986	−20.629	−23.723	7.4	C
ATOM	3588	CE1	PHE	B1200	−42.662	−22.101	−23.342	11.48	C
ATOM	3589	CE2	PHE	B1200	−43.803	−20.209	−24.297	10.2	C
ATOM	3590	CZ	PHE	B1200	−42.657	−20.938	−24.138	10.48	C
ATOM	3591	C	PHE	B1200	−46.522	−24.127	−23.913	14.52	C
ATOM	3592	O	PHE	B1200	−46.239	−25.117	−23.274	14.04	O
ATOM	3593	N	VAL	B1201	−46.278	−24.026	−25.212	15.61	N
ATOM	3594	CA	VAL	B1201	−45.552	−25.077	−25.937	16.14	C
ATOM	3595	CB	VAL	B1201	−46.223	−25.368	−27.276	16.14	C
ATOM	3596	CG1	VAL	B1201	−45.37	−26.28	−28.169	14.77	C
ATOM	3597	CG2	VAL	B1201	−47.68	−25.93	−27.046	16.33	C
ATOM	3598	C	VAL	B1201	−44.093	−24.6	−26.108	16.79	C
ATOM	3599	O	VAL	B1201	−43.794	−23.635	−26.791	17.87	O
ATOM	3600	N	HIS	B1202	−43.185	−25.274	−25.451	15.99	N
ATOM	3601	CA	HIS	B1202	−41.85	−24.848	−25.49	17.06	C
ATOM	3602	CB	HIS	B1202	−41.108	−25.639	−24.44	16.49	C
ATOM	3603	CG	HIS	B1202	−39.733	−25.142	−24.188	15.87	C
ATOM	3604	CD2	HIS	B1202	−39.216	−24.479	−23.131	13.61	C
ATOM	3605	ND1	HIS	B1202	−38.697	−25.338	−25.084	16.33	N
ATOM	3606	CE1	HIS	B1202	−37.596	−24.822	−24.575	15.98	C
ATOM	3607	NE2	HIS	B1202	−37.887	−24.287	−23.392	16.78	N
ATOM	3608	C	HIS	B1202	−41.223	−25.044	−26.903	18.23	C
ATOM	3609	O	HIS	B1202	−40.688	−24.086	−27.441	18.63	O
ATOM	3610	N	ARG	B1203	−41.276	−26.276	−27.479	19.01	N
ATOM	3611	CA	ARG	B1203	−40.731	−26.604	−28.854	18.59	C
ATOM	3612	CB	ARG	B1203	−41.156	−25.584	−29.948	17.85	C
ATOM	3613	CG	ARG	B1203	−42.573	−25.201	−29.778	22.3	C
ATOM	3614	CD	ARG	B1203	−42.853	−23.874	−30.255	27.82	C
ATOM	3615	NE	ARG	B1203	−42.669	−23.825	−31.688	36.07	N
ATOM	3616	CZ	ARG	B1203	−43.656	−23.621	−32.572	35.92	C
ATOM	3617	NH1	ARG	B1203	−44.903	−23.457	−32.111	34.73	N
ATOM	3618	NH2	ARG	B1203	−43.375	−23.574	−33.901	31.08	N
ATOM	3619	C	ARG	B1203	−39.217	−26.786	−28.933	17.32	C
ATOM	3620	O	ARG	B1203	−38.669	−26.981	−30.009	16.84	O
ATOM	3621	N	ASP	B1204	−38.537	−26.693	−27.819	16.22	N
ATOM	3622	CA	ASP	B1204	−37.087	−26.9	−27.88	15.93	C
ATOM	3623	CB	ASP	B1204	−36.399	−25.605	−28.307	14.57	C
ATOM	3624	CG	ASP	B1204	−34.994	−25.832	−28.815	19.07	C
ATOM	3625	OD1	ASP	B1204	−34.264	−24.803	−28.903	18.92	O
ATOM	3626	OD2	ASP	B1204	−34.581	−27.029	−29.074	21.21	O
ATOM	3627	C	ASP	B1204	−36.575	−27.412	−26.517	14.81	C
ATOM	3628	O	ASP	B1204	−35.502	−27.041	−26.05	15.16	O
ATOM	3629	N	LEU	B1205	−37.383	−28.239	−25.875	13.6	N
ATOM	3630	CA	LEU	B1205	−37.041	−28.817	−24.611	13.38	C
ATOM	3631	CB	LEU	B1205	−38.261	−29.547	−24.046	11.84	C
ATOM	3632	CG	LEU	B1205	−38.072	−30.052	−22.634	10.06	C
ATOM	3633	CD1	LEU	B1205	−37.692	−28.865	−21.634	7.06	C
ATOM	3634	CD2	LEU	B1205	−39.28	−30.784	−22.242	7.43	C
ATOM	3635	C	LEU	B1205	−35.89	−29.815	−24.833	14.11	C
ATOM	3636	O	LEU	B1205	−36.033	−30.718	−25.665	15.58	O
ATOM	3637	N	ALA	B1206	−34.783	−29.619	−24.1	11.95	N
ATOM	3638	CA	ALA	B1206	−33.535	−30.33	−24.23	10.68	C
ATOM	3639	CB	ALA	B1206	−32.831	−30.034	−25.596	12.55	C
ATOM	3640	C	ALA	B1206	−32.67	−29.834	−23.122	8.83	C
ATOM	3641	O	ALA	B1206	−32.888	−28.723	−22.579	8.67	O
ATOM	3642	N	ALA	B1207	−31.68	−30.636	−22.748	7.74	N
ATOM	3643	CA	ALA	B1207	−30.893	−30.32	−21.534	6.84	C
ATOM	3644	CB	ALA	B1207	−29.986	−31.448	−21.186	7.04	C
ATOM	3645	C	ALA	B1207	−30.145	−29.037	−21.756	6.97	C
ATOM	3646	O	ALA	B1207	−29.853	−28.316	−20.814	7.07	O
ATOM	3647	N	ARG	B1208	−29.857	−28.723	−23.021	8.48	N
ATOM	3648	CA	ARG	B1208	−29.105	−27.484	−23.376	10.48	C
ATOM	3649	CB	ARG	B1208	−28.612	−27.459	−24.831	10.31	C
ATOM	3650	CG	ARG	B1208	−29.687	−27.862	−25.863	11.12	C
ATOM	3651	CD	ARG	B1208	−29.252	−27.63	−27.365	8.82	C
ATOM	3652	NE	ARG	B1208	−30.465	−27.73	−28.2	13.09	N
ATOM	3653	CZ	ARG	B1208	−31.072	−28.876	−28.53	11.69	C
ATOM	3654	NH1	ARG	B1208	−30.58	−30.006	−28.144	16.97	N
ATOM	3655	NH2	ARG	B1208	−32.179	−28.902	−29.258	16.72	N
ATOM	3656	C	ARG	B1208	−29.912	−26.26	−23.043	11.65	C
ATOM	3657	O	ARG	B1208	−29.374	−25.15	−22.889	12.53	O
ATOM	3658	N	ASN	B1209	−31.213	−26.477	−22.842	13.13	N
ATOM	3659	CA	ASN	B1209	−32.14	−25.374	−22.622	12.9	C
ATOM	3660	CB	ASN	B1209	−33.281	−25.547	−23.589	12.61	C
ATOM	3661	CG	ASN	B1209	−32.907	−25.053	−24.946	14.64	C
ATOM	3662	OD1	ASN	B1209	−32.141	−24.081	−25.051	14.89	O
ATOM	3663	ND2	ASN	B1209	−33.363	−25.722	−25.976	14.02	N
ATOM	3664	C	ASN	B1209	−32.641	−25.213	−21.198	13.91	C
ATOM	3665	O	ASN	B1209	−33.525	−24.39	−20.955	16.03	O
ATOM	3666	N	CYS	B1210	−32.125	−26.041	−20.284	13.09	N
ATOM	3667	CA	CYS	B1210	−32.375	−25.967	−18.881	11.8	C
ATOM	3668	CB	CYS	B1210	−32.63	−27.335	−18.338	12.69	C
ATOM	3669	SG	CYS	B1210	−34.022	−28.189	−19.054	17.53	S
ATOM	3670	C	CYS	B1210	−31.137	−25.492	−18.22	11.23	C
ATOM	3671	O	CYS	B1210	−30.016	−26.019	−18.489	11.67	O
ATOM	3672	N	MET	B1211	−31.34	−24.527	−17.333	10.14	N
ATOM	3673	CA	MET	B1211	−30.242	−23.886	−16.565	10.47	C
ATOM	3674	CB	MET	B1211	−30.323	−22.352	−16.588	9.5	C
ATOM	3675	CG	MET	B1211	−30.138	−21.749	−18.03	11.4	C
ATOM	3676	SD	MET	B1211	−28.622	−22.258	−18.911	15.66	S
ATOM	3677	CE	MET	B1211	−29.284	−22.438	−20.557	15.6	C
ATOM	3678	C	MET	B1211	−30.211	−24.387	−15.127	11.73	C
ATOM	3679	O	MET	B1211	−31.275	−24.724	−14.552	12.17	O
ATOM	3680	N	LEU	B1212	−29	−24.496	−14.577	12.21	N
ATOM	3681	CA	LEU	B1212	−28.819	−24.898	−13.23	13.72	C
ATOM	3682	CB	LEU	B1212	−27.911	−26.104	−13.209	15.2	C
ATOM	3683	CG	LEU	B1212	−28.199	−27.458	−12.58	14.9	C
ATOM	3684	CD1	LEU	B1212	−26.877	−27.911	−12.068	19.56	C
ATOM	3685	CD2	LEU	B1212	−29.154	−27.446	−11.458	18.72	C
ATOM	3686	C	LEU	B1212	−28.209	−23.774	−12.394	15.72	C
ATOM	3687	O	LEU	B1212	−27.178	−23.229	−12.73	14.42	O
ATOM	3688	N	ASP	B1213	−28.835	−23.439	−11.272	17.77	N
ATOM	3689	CA	ASP	B1213	−28.276	−22.395	−10.489	19.65	C
ATOM	3690	CB	ASP	B1213	−29.353	−21.455	−9.98	21.08	C
ATOM	3691	CG	ASP	B1213	−30.28	−22.092	−8.886	26.99	C
ATOM	3692	OD1	ASP	B1213	−29.903	−23.095	−8.188	30.93	O
ATOM	3693	OD2	ASP	B1213	−31.406	−21.543	−8.717	30.83	O
ATOM	3694	C	ASP	B1213	−27.46	−22.962	−9.377	20.76	C
ATOM	3695	O	ASP	B1213	−27.306	−24.167	−9.271	20.15	O
ATOM	3696	N	GLU	B1214	−26.976	−22.073	−8.511	23.75	N
ATOM	3697	CA	GLU	B1214	−25.965	−22.404	−7.491	25.83	C
ATOM	3698	CB	GLU	B1214	−25.358	−21.152	−6.856	25.58	C
ATOM	3699	CG	GLU	B1214	−25.832	−20.942	−5.458	33.06	C
ATOM	3700	CD	GLU	B1214	−26.949	−19.858	−5.364	42.46	C
ATOM	3701	OE1	GLU	B1214	−27.904	−19.886	−6.208	40.39	O
ATOM	3702	OE2	GLU	B1214	−26.834	−18.969	−4.437	46.68	O
ATOM	3703	C	GLU	B1214	−26.478	−23.378	−6.427	25.29	C
ATOM	3704	O	GLU	B1214	−25.668	−24.107	−5.833	26.69	O
ATOM	3705	N	LYS	B1215	−27.791	−23.455	−6.219	24.02	N
ATOM	3706	CA	LYS	B1215	−28.295	−24.503	−5.337	23.76	C
ATOM	3707	CB	LYS	B1215	−29.237	−23.983	−4.278	24.17	C
ATOM	3708	CG	LYS	B1215	−30.271	−23.059	−4.778	28.88	C
ATOM	3709	CD	LYS	B1215	−29.893	−21.669	−4.214	37.25	C
ATOM	3710	CE	LYS	B1215	−29.192	−21.827	−2.79	40.05	C
ATOM	3711	NZ	LYS	B1215	−30.165	−22.103	−1.649	40.23	N
ATOM	3712	C	LYS	B1215	−28.935	−25.684	−6.053	22.81	C
ATOM	3713	O	LYS	B1215	−29.587	−26.555	−5.397	21.67	O
ATOM	3714	N	PHE	B1216	−28.742	−25.725	−7.378	19.98	N
ATOM	3715	CA	PHE	B1216	−29.093	−26.908	−8.121	19.25	C
ATOM	3716	CB	PHE	B1216	−28.596	−28.213	−7.422	18.9	C
ATOM	3717	CG	PHE	B1216	−27.111	−28.264	−7.317	17.96	C
ATOM	3718	CD1	PHE	B1216	−26.472	−27.984	−6.089	22.08	C
ATOM	3719	CD2	PHE	B1216	−26.341	−28.452	−8.451	15.15	C
ATOM	3720	CE1	PHE	B1216	−25.082	−27.968	−5.993	22.25	C
ATOM	3721	CE2	PHE	B1216	−24.969	−28.436	−8.389	16.63	C
ATOM	3722	CZ	PHE	B1216	−24.317	−28.182	−7.178	20.9	C
ATOM	3723	C	PHE	B1216	−30.579	−26.93	−8.405	18.18	C
ATOM	3724	O	PHE	B1216	−31.197	−28.017	−8.558	17.35	O
ATOM	3725	N	THR	B1217	−31.133	−25.72	−8.503	16.24	N
ATOM	3726	CA	THR	B1217	−32.471	−25.614	−9.048	15.6	C
ATOM	3727	CB	THR	B1217	−33.189	−24.352	−8.566	15.47	C
ATOM	3728	OG1	THR	B1217	−33.024	−24.2	−7.158	18.4	O
ATOM	3729	CG2	THR	B1217	−34.651	−24.371	−8.888	13.83	C
ATOM	3730	C	THR	B1217	−32.262	−25.557	−10.554	14.84	C
ATOM	3731	O	THR	B1217	−31.423	−24.774	−11.038	14.57	O
ATOM	3732	N	VAL	B1218	−33.01	−26.395	−11.268	14.15	N
ATOM	3733	CA	VAL	B1218	−33.018	−26.406	−12.706	12.77	C
ATOM	3734	CB	VAL	B1218	−33.159	−27.874	−13.298	13.49	C
ATOM	3735	CG1	VAL	B1218	−33.104	−27.847	−14.83	9.57	C
ATOM	3736	CG2	VAL	B1218	−32.179	−28.925	−12.674	7.77	C
ATOM	3737	C	VAL	B1218	−34.221	−25.557	−13.152	13.52	C
ATOM	3738	O	VAL	B1218	−35.325	−25.715	−12.656	13.44	O
ATOM	3739	N	LYS	B1219	−34.008	−24.668	−14.112	13.6	N
ATOM	3740	CA	LYS	B1219	−35.076	−23.906	−14.656	13.99	C
ATOM	3741	CB	LYS	B1219	−34.912	−22.43	−14.337	13.77	C
ATOM	3742	CG	LYS	B1219	−34.736	−22.145	−12.842	15.83	C
ATOM	3743	CD	LYS	B1219	−34.667	−20.645	−12.534	17.05	C
ATOM	3744	CE	LYS	B1219	−34.331	−20.44	−11.093	19.12	C
ATOM	3745	NZ	LYS	B1219	−35.386	−20.985	−10.223	12.71	N
ATOM	3746	C	LYS	B1219	−35.093	−24.089	−16.135	13.43	C
ATOM	3747	O	LYS	B1219	−34.081	−23.949	−16.788	14.83	O
ATOM	3748	N	VAL	B1220	−36.266	−24.392	−16.652	13.41	N
ATOM	3749	CA	VAL	B1220	−36.505	−24.466	−18.075	14.22	C
ATOM	3750	CB	VAL	B1220	−37.875	−25.175	−18.41	13.64	C
ATOM	3751	CG1	VAL	B1220	−38.048	−25.272	−19.877	8.54	C
ATOM	3752	CG2	VAL	B1220	−37.865	−26.569	−17.79	14.53	C
ATOM	3753	C	VAL	B1220	−36.449	−23.09	−18.686	14.19	C
ATOM	3754	O	VAL	B1220	−37.167	−22.162	−18.266	14.96	O
ATOM	3755	N	ALA	B1221	−35.561	−22.963	−19.636	13.87	N
ATOM	3756	CA	ALA	B1221	−35.328	−21.717	−20.301	15.19	C
ATOM	3757	CB	ALA	B1221	−33.785	−21.418	−20.29	15.26	C
ATOM	3758	C	ALA	B1221	−35.897	−21.712	−21.722	16.2	C
ATOM	3759	O	ALA	B1221	−35.991	−22.79	−22.392	17.52	O
ATOM	3760	O	ASP	B1222	−36.185	−18.2	−23.979	22.75	O
ATOM	3761	N	ASP	B1222	−36.322	−20.808	−22.202	20
ATOM	3762	CA	ASP	B1222	−36.839	−20.404	−23.504	20
ATOM	3763	C	ASP	B1222	−35.94	−19.354	−24.15	20
ATOM	3764	CB	ASP	B1222	−38.265	−19.865	−23.371	20
ATOM	3765	CG	ASP	B1222	−38.851	−19.436	−24.701	20
ATOM	3766	OD1	ASP	B1222	−38.859	−20.258	−25.641	20
ATOM	3767	OD2	ASP	B1222	−39.327	−18.297	−24.9	20
ATOM	3768	N	PHE	B1223	−34.78	−19.366	−24.725	23.53	N
ATOM	3769	CA	PHE	B1223	−33.976	−18.324	−25.306	24.64	C
ATOM	3770	CB	PHE	B1223	−32.475	−18.638	−25.161	24.08	C
ATOM	3771	CG	PHE	B1223	−31.998	−18.609	−23.729	21.07	C
ATOM	3772	CD1	PHE	B1223	−31.895	−17.386	−23.043	18.95	C
ATOM	3773	CD2	PHE	B1223	−31.693	−19.817	−23.064	21.87	C
ATOM	3774	CE1	PHE	B1223	−31.484	−17.347	−21.715	19.02	C
ATOM	3775	CE2	PHE	B1223	−31.278	−19.813	−21.75	22.36	C
ATOM	3776	CZ	PHE	B1223	−31.168	−18.553	−21.058	20.58	C
ATOM	3777	C	PHE	B1223	−34.433	−18.023	−26.752	25.93	C
ATOM	3778	O	PHE	B1223	−35.098	−17.003	−26.979	28.12	O
ATOM	3779	N	GLY	B1224	−34.139	−18.899	−27.696	26.17	N
ATOM	3780	CA	GLY	B1224	−34.669	−18.762	−29.081	26.43	C
ATOM	3781	C	GLY	B1224	−34.263	−17.432	−29.737	25.34	C
ATOM	3782	O	GLY	B1224	−33.489	−17.382	−30.665	26.25	O
ATOM	3783	N	LEU	B1225	−34.786	−16.339	−29.259	24.71	N
ATOM	3784	CA	LEU	B1225	−34.479	−15.087	−29.874	24.72	C
ATOM	3785	CB	LEU	B1225	−35.596	−14.08	−29.58	26.46	C
ATOM	3786	CG	LEU	B1225	−35.598	−12.769	−30.422	27.12	C
ATOM	3787	CD1	LEU	B1225	−35.356	−12.934	−31.951	23.65	C
ATOM	3788	CD2	LEU	B1225	−36.986	−12.146	−30.112	29.78	C
ATOM	3789	C	LEU	B1225	−33.148	−14.542	−29.381	22.87	C
ATOM	3790	O	LEU	B1225	−32.485	−13.767	−30.09	22.83	O
ATOM	3791	N	ALA	B1226	−32.77	−14.953	−28.178	20.34	N
ATOM	3792	CA	ALA	B1226	−31.498	−14.569	−27.602	19.02	C
ATOM	3793	CB	ALA	B1226	−31.531	−14.727	−26.109	17.46	C
ATOM	3794	C	ALA	B1226	−30.378	−15.378	−28.218	19.07	C
ATOM	3795	O	ALA	B1226	−29.225	−15.02	−28.061	20.39	O
ATOM	3796	N	ARG	B1227	−30.703	−16.45	−28.964	18.81	N
ATOM	3797	CA	ARG	B1227	−29.694	−17.22	−29.655	18.06	C
ATOM	3798	CB	ARG	B1227	−30.088	−18.681	−29.784	18.31	C
ATOM	3799	CG	ARG	B1227	−29.835	−19.543	−28.561	17.06	C
ATOM	3800	CD	ARG	B1227	−30.517	−20.942	−28.639	18.88	C
ATOM	3801	NE	ARG	B1227	−30.674	−21.617	−27.318	20.95	N
ATOM	3802	CZ	ARG	B1227	−29.662	−22.079	−26.576	19.76	C
ATOM	3803	NH1	ARG	B1227	−28.432	−21.986	−27.052	18.11	N
ATOM	3804	NH2	ARG	B1227	−29.864	−22.635	−25.366	17.86	N
ATOM	3805	C	ARG	B1227	−29.386	−16.612	−31.009	18.92	C
ATOM	3806	O	ARG	B1227	−30.151	−16.787	−31.98	20.81	O
ATOM	3807	N	ASP	B1228	−28.265	−15.897	−31.089	18.42	N
ATOM	3808	CA	ASP	B1228	−27.778	−15.365	−32.373	19.28	C
ATOM	3809	CB	ASP	B1228	−26.42	−14.667	−32.241	19.39	C
ATOM	3810	CG	ASP	B1228	−26.49	−13.339	−31.488	19.96	C
ATOM	3811	OD1	ASP	B1228	−27.59	−12.824	−31.102	21.82	O
ATOM	3812	OD2	ASP	B1228	−25.385	−12.84	−31.234	19.46	O
ATOM	3813	C	ASP	B1228	−27.707	−16.324	−33.54	19.83	C
ATOM	3814	O	ASP	B1228	−28.274	−16.027	−34.579	19.82	O
ATOM	3815	N	MET	B1229	−26.956	−17.419	−33.38	22.04	N
ATOM	3816	CA	MET	B1229	−27.017	−18.611	−34.222	24.36	C
ATOM	3817	CB	MET	B1229	−25.71	−18.746	−34.988	23.85	C
ATOM	3818	CG	MET	B1229	−25.502	−17.629	−35.865	25.1	C
ATOM	3819	SD	MET	B1229	−23.917	−17.588	−36.672	29.2	S
ATOM	3820	CE	MET	B1229	−22.717	−18.577	−35.636	32.72	C
ATOM	3821	C	MET	B1229	−27.217	−19.932	−33.479	25.51	C
ATOM	3822	O	MET	B1229	−27.127	−19.978	−32.257	24	O
ATOM	3823	N	TYR	B1230	−27.46	−21.001	−34.261	29.08	N
ATOM	3824	CA	TYR	B1230	−27.471	−22.413	−33.826	34.08	C
ATOM	3825	CB	TYR	B1230	−28.893	−22.891	−33.966	34.58	C
ATOM	3826	CG	TYR	B1230	−29.933	−21.946	−33.4	35.75	C
ATOM	3827	CD1	TYR	B1230	−30.167	−20.688	−33.993	40.7	C
ATOM	3828	CE1	TYR	B1230	−31.112	−19.783	−33.488	37.49	C
ATOM	3829	CD2	TYR	B1230	−30.716	−22.305	−32.318	35.53	C
ATOM	3830	CE2	TYR	B1230	−31.691	−21.421	−31.826	36.77	C
ATOM	3831	CZ	TYR	B1230	−31.857	−20.169	−32.419	37.26	C
ATOM	3832	OH	TYR	B1230	−32.784	−19.289	−31.938	39.37	O
ATOM	3833	C	TYR	B1230	−26.584	−23.265	−34.755	35.95	C
ATOM	3834	O	TYR	B1230	−26.276	−22.825	−35.864	36.53	O
ATOM	3835	N	ASP	B1231	−26.162	−24.491	−34.382	39.69	N
ATOM	3836	CA	ASP	B1231	−25.538	−25.425	−35.463	41.03	C
ATOM	3837	CB	ASP	B1231	−23.995	−25.454	−35.35	42.61	C
ATOM	3838	CG	ASP	B1231	−23.553	−26.179	−34.024	46.08	C
ATOM	3839	OD1	ASP	B1231	−22.866	−27.237	−34.085	44.26	O
ATOM	3840	OD2	ASP	B1231	−23.991	−25.72	−32.92	48.62	O
ATOM	3841	C	ASP	B1231	−25.93	−26.803	−35.112	40.95	C
ATOM	3842	O	ASP	B1231	−26.455	−26.898	−34.011	41.5	O
ATOM	3843	N	LYS	B1232	−25.638	−27.845	−35.959	41.51	N
ATOM	3844	CA	LYS	B1232	−25.472	−29.295	−35.504	40.13	C
ATOM	3845	CB	LYS	B1232	−24.085	−29.456	−34.835	41.34	C
ATOM	3846	CG	LYS	B1232	−23.694	−30.825	−34.164	42.89	C
ATOM	3847	CD	LYS	B1232	−23.774	−30.788	−32.596	50.15	C
ATOM	3848	CE	LYS	B1232	−22.592	−30.036	−31.827	55.04	C
ATOM	3849	NZ	LYS	B1232	−21.62	−30.864	−30.923	57.08	N
ATOM	3850	C	LYS	B1232	−26.567	−29.995	−34.603	39.71	C
ATOM	3851	O	LYS	B1232	−26.902	−31.182	−34.778	41.39	O
ATOM	3852	N	GLU	B1233	−27.076	−29.309	−33.594	36.6	N
ATOM	3853	CA	GLU	B1233	−28.291	−29.742	−32.95	34.58	C
ATOM	3854	CB	GLU	B1233	−28.459	−29.068	−31.552	33.63	C
ATOM	3855	CG	GLU	B1233	−27.201	−28.787	−30.789	34.52	C
ATOM	3856	CD	GLU	B1233	−26.607	−30.075	−30.268	39.4	C
ATOM	3857	OE1	GLU	B1233	−27.175	−31.113	−30.673	34.26	O
ATOM	3858	OE2	GLU	B1233	−25.58	−30.058	−29.494	41.29	O
ATOM	3859	C	GLU	B1233	−29.512	−29.434	−33.859	32.39	C
ATOM	3860	O	GLU	B1233	−30.54	−30.097	−33.805	31.63	O
ATOM	3861	N	TYR	B1234	−29.388	−28.4	−34.664	31.28	N
ATOM	3862	CA	TYR	B1234	−30.539	−27.798	−35.324	30.52	C
ATOM	3863	CB	TYR	B1234	−30.68	−26.355	−34.903	28.19	C
ATOM	3864	CG	TYR	B1234	−31.041	−26.123	−33.508	25.71	C
ATOM	3865	CD1	TYR	B1234	−30.067	−26.048	−32.545	23.54	C
ATOM	3866	CE1	TYR	B1234	−30.372	−25.814	−31.211	26.06	C
ATOM	3867	CD2	TYR	B1234	−32.361	−25.907	−33.142	25.16	C
ATOM	3868	CE2	TYR	B1234	−32.692	−25.663	−31.797	27.03	C
ATOM	3869	CZ	TYR	B1234	−31.676	−25.639	−30.829	27.04	C
ATOM	3870	OH	TYR	B1234	−31.945	−25.398	−29.498	27	O
ATOM	3871	C	TYR	B1234	−30.413	−27.788	−36.846	32.17	C
ATOM	3872	O	TYR	B1234	−29.369	−27.478	−37.391	31.62	O
ATOM	3873	N	TYR	B1235	−31.509	−28.08	−37.519	33.9	N
ATOM	3874	CA	TYR	B1235	−31.561	−28.031	−38.973	35.7	C
ATOM	3875	CB	TYR	B1235	−32.229	−29.329	−39.529	38.55	C
ATOM	3876	CG	TYR	B1235	−31.255	−30.498	−39.286	44.18	C
ATOM	3877	CD1	TYR	B1235	−30.527	−31.097	−40.361	48.85	C
ATOM	3878	CE1	TYR	B1235	−29.571	−32.17	−40.097	50.41	C
ATOM	3879	CD2	TYR	B1235	−30.956	−30.943	−37.925	48.72	C
ATOM	3880	CE2	TYR	B1235	−30.005	−31.974	−37.619	48.36	C
ATOM	3881	CZ	TYR	B1235	−29.309	−32.604	−38.71	51.73	C
ATOM	3882	OH	TYR	B1235	−28.405	−33.67	−38.431	50.9	O
ATOM	3883	C	TYR	B1235	−32.282	−26.749	−39.291	33.92	C
ATOM	3884	O	TYR	B1235	−33.203	−26.393	−38.584	33.68	O
ATOM	3885	N	SER	B1236	−31.824	−26.034	−40.318	32.72	N
ATOM	3886	CA	SER	B1236	−32.467	−24.785	−40.759	31.62	C
ATOM	3887	CB	SER	B1236	−31.375	−23.692	−40.958	31.66	C
ATOM	3888	OG	SER	B1236	−31.925	−22.409	−41.29	26.78	O
ATOM	3889	C	SER	B1236	−33.328	−25.04	−42.009	30.87	C
ATOM	3890	O	SER	B1236	−32.823	−25.681	−42.919	31.06	O
ATOM	3891	N	VAL	B1237	−34.614	−24.638	−42.001	30.38	N
ATOM	3892	CA	VAL	B1237	−35.513	−24.609	−43.174	31.34	C
ATOM	3893	CB	VAL	B1237	−37.02	−24.115	−42.819	31.82	C
ATOM	3894	CG1	VAL	B1237	−38.189	−24.363	−43.965	29.46	C
ATOM	3895	CG2	VAL	B1237	−37.456	−24.647	−41.483	34.13	C
ATOM	3896	C	VAL	B1237	−34.947	−23.539	−44.081	32.51	C
ATOM	3897	O	VAL	B1237	−34.477	−22.53	−43.634	32.91	O
ATOM	3898	N	HIS	B1238	−35.049	−23.735	−45.373	34.9	N
ATOM	3899	CA	HIS	B1238	−34.462	−22.809	−46.339	37.53	C
ATOM	3900	CB	HIS	B1238	−34.445	−23.514	−47.653	36.06	C
ATOM	3901	CG	HIS	B1238	−33.489	−24.626	−47.685	32.65	C
ATOM	3902	CD2	HIS	B1238	−33.56	−25.853	−48.262	30.91	C
ATOM	3903	ND1	HIS	B1238	−32.268	−24.532	−47.074	28.37	N
ATOM	3904	CE1	HIS	B1238	−31.615	−25.658	−47.287	35.6	C
ATOM	3905	NE2	HIS	B1238	−32.378	−26.476	−48.01	31.54	N
ATOM	3906	C	HIS	B1238	−35.279	−21.54	−46.54	39.46	C
ATOM	3907	O	HIS	B1238	−34.9	−20.463	−46.144	41.81	O
ATOM	3908	N	ASN	B1239	−36.386	−21.705	−47.232	41.97	N
ATOM	3909	CA	ASN	B1239	−37.457	−20.761	−47.205	44.12	C
ATOM	3910	CB	ASN	B1239	−38.723	−21.531	−47.615	45.61	C
ATOM	3911	CG	ASN	B1239	−38.849	−21.718	−49.11	49.07	C
ATOM	3912	OD1	ASN	B1239	−39.966	−22.047	−49.593	51.28	O
ATOM	3913	ND2	ASN	B1239	−37.72	−21.548	−49.871	49.39	N
ATOM	3914	C	ASN	B1239	−37.732	−20.193	−45.825	44.34	C
ATOM	3915	O	ASN	B1239	−37.272	−19.103	−45.482	42.93	O
ATOM	3916	N	LYS	B1240	−38.44	−21.031	−45.039	46.24	N
ATOM	3917	CA	LYS	B1240	−39.575	−20.652	−44.125	46.09	C
ATOM	3918	CB	LYS	B1240	−40.686	−21.755	−44.078	47.2	C
ATOM	3919	CG	LYS	B1240	−41.403	−22.078	−42.682	48.07	C
ATOM	3920	CD	LYS	B1240	−42.986	−22.34	−42.824	48.07	C
ATOM	3921	CE	LYS	B1240	−43.353	−23.625	−43.614	47.33	C
ATOM	3922	NZ	LYS	B1240	−43.305	−24.855	−42.778	46.55	N
ATOM	3923	C	LYS	B1240	−39.042	−20.3	−42.796	44.7	C
ATOM	3924	O	LYS	B1240	−38.808	−21.142	−41.918	45.03	O
ATOM	3925	N	THR	B1241	−38.923	−19	−42.672	43.95	N
ATOM	3926	CA	THR	B1241	−37.75	−18.379	−42.113	43.68	C
ATOM	3927	CB	THR	B1241	−37.912	−17.912	−40.593	44.97	C
ATOM	3928	OG1	THR	B1241	−36.612	−17.659	−40.012	48.88	O
ATOM	3929	CG2	THR	B1241	−38.808	−18.875	−39.642	45.32	C
ATOM	3930	C	THR	B1241	−36.598	−19.286	−42.401	41.6	C
ATOM	3931	O	THR	B1241	−36.446	−19.833	−43.473	42.93	O
ATOM	3932	N	GLY	B1242	−35.739	−19.421	−41.448	39.81	N
ATOM	3933	CA	GLY	B1242	−34.996	−20.61	−41.362	36.11	C
ATOM	3934	C	GLY	B1242	−35.436	−20.956	−39.967	33.19	C
ATOM	3935	O	GLY	B1242	−34.711	−20.656	−39.027	32.74	O
ATOM	3936	N	ALA	B1243	−36.661	−21.472	−39.836	29.81	N
ATOM	3937	CA	ALA	B1243	−37.037	−22.105	−38.585	27.88	C
ATOM	3938	CB	ALA	B1243	−38.491	−22.775	−38.648	27.63	C
ATOM	3939	C	ALA	B1243	−35.917	−23.137	−38.209	25.69	C
ATOM	3940	O	ALA	B1243	−35.434	−23.861	−39.04	23.82	O
ATOM	3941	N	LYS	B1244	−35.471	−23.1	−36.955	24.7	N
ATOM	3942	CA	LYS	B1244	−34.543	−24.063	−36.429	23.56	C
ATOM	3943	CB	LYS	B1244	−33.705	−23.448	−35.326	23.12	C
ATOM	3944	CG	LYS	B1244	−33.115	−22.087	−35.698	25.56	C
ATOM	3945	CD	LYS	B1244	−31.993	−22.206	−36.679	26.2	C
ATOM	3946	CE	LYS	B1244	−31.934	−20.959	−37.564	28.44	C
ATOM	3947	NZ	LYS	B1244	−32.549	−19.815	−36.856	27.98	N
ATOM	3948	C	LYS	B1244	−35.381	−25.227	−35.908	22.49	C
ATOM	3949	O	LYS	B1244	−36.427	−25.057	−35.33	22.76	O
ATOM	3950	N	LEU	B1245	−34.897	−26.421	−36.144	21.42	N
ATOM	3951	CA	LEU	B1245	−35.613	−27.618	−35.829	19.61	C
ATOM	3952	CB	LEU	B1245	−36.23	−28.184	−37.127	21.08	C
ATOM	3953	CG	LEU	B1245	−37.226	−27.274	−37.878	23.54	C
ATOM	3954	CD1	LEU	B1245	−36.77	−26.914	−39.317	23.91	C
ATOM	3955	CD2	LEU	B1245	−38.488	−28.039	−37.994	30.03	C
ATOM	3956	C	LEU	B1245	−34.584	−28.554	−35.206	17.53	C
ATOM	3957	O	LEU	B1245	−33.66	−29.055	−35.916	14.78	O
ATOM	3958	N	PRO	B1246	−34.692	−28.735	−33.861	16.71	N
ATOM	3959	CD	PRO	B1246	−35.669	−28.048	−32.962	16.55	C
ATOM	3960	CA	PRO	B1246	−33.865	−29.676	−33.104	15.54	C
ATOM	3961	CB	PRO	B1246	−34.257	−29.351	−31.666	16.13	C
ATOM	3962	CG	PRO	B1246	−35.652	−28.846	−31.726	12.22	C
ATOM	3963	C	PRO	B1246	−34.36	−31.108	−33.453	15.49	C
ATOM	3964	O	PRO	B1246	−34.977	−31.795	−32.611	16.52	O
ATOM	3965	N	VAL	B1247	−34.123	−31.535	−34.689	13.12	N
ATOM	3966	CA	VAL	B1247	−34.584	−32.798	−35.143	13.03	C
ATOM	3967	CB	VAL	B1247	−34.022	−33.173	−36.545	13.66	C
ATOM	3968	CG1	VAL	B1247	−33.97	−32.026	−37.403	16.62	C
ATOM	3969	CG2	VAL	B1247	−32.671	−33.871	−36.495	16.62	C
ATOM	3970	C	VAL	B1247	−34.507	−33.995	−34.183	11.34	C
ATOM	3971	O	VAL	B1247	−35.466	−34.721	−34.083	11.5	O
ATOM	3972	N	LYS	B1248	−33.381	−34.195	−33.51	11.79	N
ATOM	3973	CA	LYS	B1248	−33.165	−35.38	−32.689	12.47	C
ATOM	3974	CB	LYS	B1248	−31.702	−35.589	−32.463	12.8	C
ATOM	3975	CG	LYS	B1248	−30.995	−36.234	−33.691	15.64	C
ATOM	3976	CD	LYS	B1248	−29.37	−36.242	−33.586	18.07	C
ATOM	3977	CE	LYS	B1248	−28.673	−36.979	−34.801	15.79	C
ATOM	3978	NZ	LYS	B1248	−29.745	−37.139	−35.892	23.64	N
ATOM	3979	C	LYS	B1248	−33.908	−35.348	−31.382	10.54	C
ATOM	3980	O	LYS	B1248	−33.981	−36.36	−30.728	10.31	O
ATOM	3981	N	TRP	B1249	−34.525	−34.213	−31.034	9.66	N
ATOM	3982	CA	TRP	B1249	−35.405	−34.107	−29.845	8.39	C
ATOM	3983	CB	TRP	B1249	−35.086	−32.836	−29.014	7.29	C
ATOM	3984	CG	TRP	B1249	−33.914	−33.017	−28.158	5.7	C
ATOM	3985	CD2	TRP	B1249	−32.548	−33.029	−28.582	4.8	C
ATOM	3986	CE2	TRP	B1249	−31.755	−33.293	−27.442	3.54	C
ATOM	3987	CE3	TRP	B1249	−31.909	−32.804	−29.806	9.04	C
ATOM	3988	CD1	TRP	B1249	−33.896	−33.289	−26.791	4.28	C
ATOM	3989	NE1	TRP	B1249	−32.607	−33.458	−26.374	2.45	N
ATOM	3990	CZ2	TRP	B1249	−30.337	−33.352	−27.5	2	C
ATOM	3991	CZ3	TRP	B1249	−30.474	−32.872	−29.844	8.31	C
ATOM	3992	CH2	TRP	B1249	−29.74	−33.16	−28.702	4.96	C
ATOM	3993	C	TRP	B1249	−36.828	−33.99	−30.325	9.48	C
ATOM	3994	O	TRP	B1249	−37.726	−33.99	−29.522	11.52	O
ATOM	3995	N	MET	B1250	−37.053	−33.901	−31.63	10.09	N
ATOM	3996	CA	MET	B1250	−38.384	−33.689	−32.159	11.64	C
ATOM	3997	CB	MET	B1250	−38.295	−33.04	−33.507	11.33	C
ATOM	3998	CG	MET	B1250	−38.313	−31.485	−33.482	12.69	C
ATOM	3999	SD	MET	B1250	−37.811	−30.796	−35.124	16.39	S
ATOM	4000	CE	MET	B1250	−39.348	−30.884	−36.046	17.08	C
ATOM	4001	C	MET	B1250	−39.178	−34.974	−32.272	13.02	C
ATOM	4002	O	MET	B1250	−38.606	−36.105	−32.53	12.68	O
ATOM	4003	N	ALA	B1251	−40.501	−34.838	−32.06	12.87	N
ATOM	4004	CA	ALA	B1251	−41.405	−35.982	−32.177	13.1	C
ATOM	4005	CB	ALA	B1251	−42.699	−35.724	−31.481	12.42	C
ATOM	4006	C	ALA	B1251	−41.62	−36.363	−33.651	15.54	C
ATOM	4007	O	ALA	B1251	−41.512	−35.498	−34.572	14.8	O
ATOM	4008	N	LEU	B1252	−41.903	−37.662	−33.866	17.95	N
ATOM	4009	CA	LEU	B1252	−42.248	−38.215	−35.18	19.26	C
ATOM	4010	CB	LEU	B1252	−42.867	−39.609	−35.016	20.92	C
ATOM	4011	CG	LEU	B1252	−43.079	−40.544	−36.227	21.26	C
ATOM	4012	CD1	LEU	B1252	−41.988	−40.407	−37.34	19.45	C
ATOM	4013	CD2	LEU	B1252	−43.292	−42.011	−35.699	19.03	C
ATOM	4014	C	LEU	B1252	−43.215	−37.333	−35.962	19.23	C
ATOM	4015	O	LEU	B1252	−42.91	−36.899	−37.062	19.86	O
ATOM	4016	N	GLU	B1253	−44.374	−37.05	−35.405	18.89	N
ATOM	4017	CA	GLU	B1253	−45.26	−36.124	−36.066	20.29	C
ATOM	4018	CB	GLU	B1253	−46.574	−36.042	−35.299	19.85	C
ATOM	4019	CG	GLU	B1253	−46.507	−35.19	−33.996	22.81	C
ATOM	4020	CD	GLU	B1253	−46.092	−35.973	−32.754	24.46	C
ATOM	4021	OE1	GLU	B1253	−45.675	−37.15	−32.878	27.79	O
ATOM	4022	OE2	GLU	B1253	−46.214	−35.408	−31.643	26.76	O
ATOM	4023	C	GLU	B1253	−44.664	−34.692	−36.414	21.64	C
ATOM	4024	O	GLU	B1253	−44.968	−34.162	−37.492	22.96	O
ATOM	4025	N	SER	B1254	−43.818	−34.079	−35.567	21.49	N
ATOM	4026	CA	SER	B1254	−43.302	−32.735	−35.855	21.38	C
ATOM	4027	CB	SER	B1254	−42.609	−32.116	−34.647	21.56	C
ATOM	4028	OG	SER	B1254	−43.485	−32.087	−33.503	25.03	O
ATOM	4029	C	SER	B1254	−42.313	−32.823	−36.976	21.95	C
ATOM	4030	O	SER	B1254	−42.22	−31.926	−37.784	22.06	O
ATOM	4031	N	LEU	B1255	−41.534	−33.896	−37.031	22.64	N
ATOM	4032	CA	LEU	B1255	−40.623	−34.095	−38.146	22.06	C
ATOM	4033	CB	LEU	B1255	−39.865	−35.409	−37.985	20.16	C
ATOM	4034	CG	LEU	B1255	−38.889	−35.49	−36.825	17.35	C
ATOM	4035	CD1	LEU	B1255	−38.374	−36.987	−36.629	13.13	C
ATOM	4036	CD2	LEU	B1255	−37.76	−34.489	−37.004	14.62	C
ATOM	4037	C	LEU	B1255	−41.387	−34.15	−39.467	23.82	C
ATOM	4038	O	LEU	B1255	−40.89	−33.691	−40.511	25.05	O
ATOM	4039	N	GLN	B1256	−42.575	−34.753	−39.424	24.85	N
ATOM	4040	CA	GLN	B1256	−43.34	−35.01	−40.605	26.22	C
ATOM	4041	CB	GLN	B1256	−44.294	−36.186	−40.422	25.39	C
ATOM	4042	CG	GLN	B1256	−43.687	−37.577	−40.193	26.12	C
ATOM	4043	CD	GLN	B1256	−44.774	−38.604	−39.754	27.1	C
ATOM	4044	OE1	GLN	B1256	−45.184	−39.42	−40.533	29.2	O
ATOM	4045	NE2	GLN	B1256	−45.273	−38.501	−38.525	26.57	N
ATOM	4046	C	GLN	B1256	−44.166	−33.781	−40.914	27.29	C
ATOM	4047	O	GLN	B1256	−44.508	−33.567	−42.066	29.76	O
ATOM	4048	N	THR	B1257	−44.5	−32.968	−39.926	27.03	N
ATOM	4049	CA	THR	B1257	−45.449	−31.874	−40.149	26.26	C
ATOM	4050	CB	THR	B1257	−46.737	−32.13	−39.348	27.06	C
ATOM	4051	OG1	THR	B1257	−46.459	−32.004	−37.938	24.23	O
ATOM	4052	CG2	THR	B1257	−47.303	−33.527	−39.645	25.82	C
ATOM	4053	C	THR	B1257	−44.927	−30.485	−39.743	26.76	C
ATOM	4054	O	THR	B1257	−45.495	−29.455	−40.084	26.46	O
ATOM	4055	N	GLN	B1258	−43.854	−30.465	−38.979	27.16	N
ATOM	4056	CA	GLN	B1258	−43.232	−29.234	−38.532	28.56	C
ATOM	4057	CB	GLN	B1258	−42.773	−28.422	−39.75	28.63	C
ATOM	4058	CG	GLN	B1258	−41.445	−27.703	−39.541	32.3	C
ATOM	4059	CD	GLN	B1258	−41.202	−26.525	−40.556	33.04	C
ATOM	4060	OE1	GLN	B1258	−40.718	−25.425	−40.163	35.92	O
ATOM	4061	NE2	GLN	B1258	−41.511	−26.766	−41.852	31.94	N
ATOM	4062	C	GLN	B1258	−44.152	−28.424	−37.578	27.21	C
ATOM	4063	O	GLN	B1258	−43.982	−27.187	−37.391	27.96	O
ATOM	4064	N	LYS	B1259	−45.122	−29.117	−36.987	25.61	N
ATOM	4065	CA	LYS	B1259	−45.992	−28.515	−35.993	24.97	C
ATOM	4066	CB	LYS	B1259	−47.448	−28.482	−36.486	26.14	C
ATOM	4067	CG	LYS	B1259	−47.723	−27.151	−37.225	32.4	C
ATOM	4068	CD	LYS	B1259	−48.102	−27.291	−38.71	40.86	C
ATOM	4069	CE	LYS	B1259	−49.665	−27.375	−38.896	50.91	C
ATOM	4070	NZ	LYS	B1259	−50.394	−28.321	−37.902	53.68	N
ATOM	4071	C	LYS	B1259	−45.826	−29.129	−34.59	22.27	C
ATOM	4072	O	LYS	B1259	−45.634	−30.333	−34.484	21.35	O
ATOM	4073	N	PHE	B1260	−45.856	−28.275	−33.542	19.76	N
ATOM	4074	CA	PHE	B1260	−45.587	−28.652	−32.148	17.39	C
ATOM	4075	CB	PHE	B1260	−44.45	−27.875	−31.589	14.45	C
ATOM	4076	CG	PHE	B1260	−43.248	−27.866	−32.479	16.95	C
ATOM	4077	CD1	PHE	B1260	−43.232	−27.143	−33.676	12.95	C
ATOM	4078	CD2	PHE	B1260	−42.1	−28.615	−32.149	18.21	C
ATOM	4079	CE1	PHE	B1260	−42.09	−27.176	−34.51	14.99	C
ATOM	4080	CE2	PHE	B1260	−40.962	−28.61	−33.022	15.9	C
ATOM	4081	CZ	PHE	B1260	−40.981	−27.874	−34.185	11.08	C
ATOM	4082	C	PHE	B1260	−46.778	−28.545	−31.202	18.09	C
ATOM	4083	O	PHE	B1260	−47.724	−27.776	−31.422	18.72	O
ATOM	4084	N	THR	B1261	−46.726	−29.367	−30.148	17.79	N
ATOM	4085	CA	THR	B1261	−47.745	−29.416	−29.111	17.31	C
ATOM	4086	CB	THR	B1261	−48.793	−30.515	−29.388	16.69	C
ATOM	4087	OG1	THR	B1261	−48.125	−31.755	−29.671	17.09	O
ATOM	4088	CG2	THR	B1261	−49.667	−30.138	−30.574	17.08	C
ATOM	4089	C	THR	B1261	−47.083	−29.751	−27.801	16.71	C
ATOM	4090	O	THR	B1261	−45.87	−30.073	−27.768	16.18	O
ATOM	4091	N	THR	B1262	−47.886	−29.729	−26.728	15.26	N
ATOM	4092	CA	THR	B1262	−47.439	−30.274	−25.427	14.24	C
ATOM	4093	CB	THR	B1262	−48.509	−29.994	−24.355	12.83	C
ATOM	4094	OG1	THR	B1262	−48.54	−28.588	−24.19	14.64	O
ATOM	4095	CG2	THR	B1262	−48.162	−30.554	−23.009	12.65	C
ATOM	4096	C	THR	B1262	−47.08	−31.73	−25.49	13.76	C
ATOM	4097	O	THR	B1262	−46.206	−32.128	−24.782	16.54	O
ATOM	4098	N	LYS	B1263	−47.735	−32.535	−26.329	14.41	N
ATOM	4099	CA	LYS	B1263	−47.326	−33.942	−26.538	14.1	C
ATOM	4100	CB	LYS	B1263	−48.35	−34.761	−27.329	13.72	C
ATOM	4101	CG	LYS	B1263	−49.67	−34.811	−26.68	13.94	C
ATOM	4102	CD	LYS	B1263	−49.545	−35.067	−25.196	14.53	C
ATOM	4103	CE	LYS	B1263	−50.85	−35.583	−24.602	13.05	C
ATOM	4104	NZ	LYS	B1263	−50.49	−36.259	−23.363	17.05	N
ATOM	4105	C	LYS	B1263	−45.98	−34.027	−27.257	14.57	C
ATOM	4106	O	LYS	B1263	−45.2	−34.932	−26.975	15.41	O
ATOM	4107	N	SER	B1264	−45.698	−33.099	−28.16	11.65	N
ATOM	4108	CA	SER	B1264	−44.441	−33.146	−28.787	13.31	C
ATOM	4109	CB	SER	B1264	−44.492	−32.375	−30.104	12.51	C
ATOM	4110	OG	SER	B1264	−44.451	−31.004	−29.879	16.54	O
ATOM	4111	C	SER	B1264	−43.313	−32.699	−27.811	13	C
ATOM	4112	O	SER	B1264	−42.197	−33.169	−27.925	14.49	O
ATOM	4113	N	ASP	B1265	−43.639	−31.859	−26.829	13.66	N
ATOM	4114	CA	ASP	B1265	−42.758	−31.435	−25.724	13.49	C
ATOM	4115	CB	ASP	B1265	−43.434	−30.31	−24.857	14.45	C
ATOM	4116	CG	ASP	B1265	−43.277	−28.836	−25.42	15.31	C
ATOM	4117	OD1	ASP	B1265	−42.551	−28.551	−26.437	11.54	O
ATOM	4118	OD2	ASP	B1265	−43.948	−27.93	−24.789	14.05	O
ATOM	4119	C	ASP	B1265	−42.544	−32.683	−24.821	13.36	C
ATOM	4120	O	ASP	B1265	−41.438	−32.905	−24.309	12.68	O
ATOM	4121	N	VAL	B1266	−43.595	−33.467	−24.587	10.21	N
ATOM	4122	CA	VAL	B1266	−43.391	−34.728	−23.865	10.13	C
ATOM	4123	CB	VAL	B1266	−44.755	−35.518	−23.608	10.77	C
ATOM	4124	CG1	VAL	B1266	−44.502	−36.889	−23.116	5.97	C
ATOM	4125	CG2	VAL	B1266	−45.649	−34.727	−22.654	7.57	C
ATOM	4126	C	VAL	B1266	−42.382	−35.637	−24.548	8.48	C
ATOM	4127	O	VAL	B1266	−41.442	−36.08	−23.913	9.29	O
ATOM	4128	N	TRP	B1267	−42.506	−35.856	−25.849	8.05	N
ATOM	4129	CA	TRP	B1267	−41.517	−36.661	−26.578	8.38	C
ATOM	4130	CB	TRP	B1267	−41.77	−36.609	−28.027	9.04	C
ATOM	4131	CG	TRP	B1267	−40.748	−37.362	−28.859	13.03	C
ATOM	4132	CD2	TRP	B1267	−41.036	−38.518	−29.698	11.67	C
ATOM	4133	CE2	TRP	B1267	−39.819	−38.935	−30.278	9.47	C
ATOM	4134	CE3	TRP	B1267	−42.215	−39.227	−29.994	10.04	C
ATOM	4135	CD1	TRP	B1267	−39.388	−37.129	−28.961	8.94	C
ATOM	4136	NE1	TRP	B1267	−38.826	−38.097	−29.82	12.78	N
ATOM	4137	CZ2	TRP	B1267	−39.755	−40.002	−31.17	9.52	C
ATOM	4138	CZ3	TRP	B1267	−42.168	−40.258	−30.893	10.1	C
ATOM	4139	CH2	TRP	B1267	−40.934	−40.653	−31.466	11.36	C
ATOM	4140	C	TRP	B1267	−40.119	−36.117	−26.29	9.58	C
ATOM	4141	O	TRP	B1267	−39.173	−36.924	−25.943	11.1	O
ATOM	4142	N	SER	B1268	−39.984	−34.779	−26.408	7.45	N
ATOM	4143	CA	SER	B1268	−38.736	−34.075	−26.174	5.51	C
ATOM	4144	CB	SER	B1268	−38.926	−32.562	−26.31	7.41	C
ATOM	4145	OG	SER	B1268	−38.927	−32.233	−27.655	11.13	O
ATOM	4146	C	SER	B1268	−38.241	−34.274	−24.815	4.11	C
ATOM	4147	O	SER	B1268	−37.066	−34.539	−24.634	4.39	O
ATOM	4148	N	PHE	B1269	−39.125	−34.142	−23.834	3.73	N
ATOM	4149	CA	PHE	B1269	−38.794	−34.445	−22.45	4.56	C
ATOM	4150	CB	PHE	B1269	−40.038	−34.29	−21.58	5.96	C
ATOM	4151	CG	PHE	B1269	−39.81	−34.636	−20.125	6.7	C
ATOM	4152	CD1	PHE	B1269	−39.078	−33.763	−19.287	9.71	C
ATOM	4153	CD2	PHE	B1269	−40.265	−35.832	−19.623	4.42	C
ATOM	4154	CE1	PHE	B1269	−38.847	−34.07	−17.953	8.28	C
ATOM	4155	CE2	PHE	B1269	−40.061	−36.155	−18.32	8.23	C
ATOM	4156	CZ	PHE	B1269	−39.355	−35.241	−17.468	12.92	C
ATOM	4157	C	PHE	B1269	−38.181	−35.834	−22.267	5.12	C
ATOM	4158	O	PHE	B1269	−37.199	−36.012	−21.516	6.6	O
ATOM	4159	N	GLY	B1270	−38.728	−36.828	−22.949	4.58	N
ATOM	4160	CA	GLY	B1270	−38.154	−38.129	−22.823	5.87	C
ATOM	4161	C	GLY	B1270	−36.772	−38.256	−23.358	7.68	C
ATOM	4162	O	GLY	B1270	−35.909	−38.968	−22.753	8.82	O
ATOM	4163	N	VAL	B1271	−36.514	−37.556	−24.478	8.32	N
ATOM	4164	CA	VAL	B1271	−35.076	−37.437	−25.021	8.41	C
ATOM	4165	CB	VAL	B1271	−35.045	−36.627	−26.371	7.21	C
ATOM	4166	CG1	VAL	B1271	−33.805	−36.88	−27.078	8.43	C
ATOM	4167	CG2	VAL	B1271	−36.143	−37.058	−27.294	5.25	C
ATOM	4168	C	VAL	B1271	−34.114	−36.804	−24.012	8.67	C
ATOM	4169	O	VAL	B1271	−32.971	−37.231	−23.82	9.62	O
ATOM	4170	N	LEU	B1272	−34.621	−35.749	−23.379	10.91	N
ATOM	4171	CA	LEU	B1272	−33.95	−35.009	−22.261	11.66	C
ATOM	4172	CB	LEU	B1272	−34.818	−33.81	−21.792	11.01	C
ATOM	4173	CG	LEU	B1272	−34.161	−32.875	−20.766	13.19	C
ATOM	4174	CD1	LEU	B1272	−34.927	−31.529	−20.726	7.24	C
ATOM	4175	CD2	LEU	B1272	−34.025	−33.436	−19.332	10.52	C
ATOM	4176	C	LEU	B1272	−33.668	−35.96	−21.094	10.21	C
ATOM	4177	O	LEU	B1272	−32.556	−35.972	−20.597	10.12	O
ATOM	4178	N	LEU	B1273	−34.65	−36.774	−20.685	9.18	N
ATOM	4179	CA	LEU	B1273	−34.331	−37.803	−19.659	11.07	C
ATOM	4180	CB	LEU	B1273	−35.542	−38.655	−19.303	10.87	C
ATOM	4181	CG	LEU	B1273	−36.725	−37.912	−18.694	16.19	C
ATOM	4182	CD1	LEU	B1273	−37.954	−38.84	−18.631	16.15	C
ATOM	4183	CD2	LEU	B1273	−36.396	−37.352	−17.34	14.22	C
ATOM	4184	C	LEU	B1273	−33.183	−38.741	−20.076	9.8	C
ATOM	4185	O	LEU	B1273	−32.389	−39.109	−19.277	9.52	O
ATOM	4186	N	TRP	B1274	−33.15	−39.094	−21.358	11.24	N
ATOM	4187	CA	TRP	B1274	−32.163	−39.995	−21.948	10.94	C
ATOM	4188	CB	TRP	B1274	−32.565	−40.397	−23.414	9.58	C
ATOM	4189	CG	TRP	B1274	−31.633	−41.432	−24.04	10.2	C
ATOM	4190	CD2	TRP	B1274	−30.43	−41.158	−24.748	8.46	C
ATOM	4191	CE2	TRP	B1274	−29.842	−42.409	−25.082	9.48	C
ATOM	4192	CE3	TRP	B1274	−29.77	−39.972	−25.119	8.54	C
ATOM	4193	CD1	TRP	B1274	−31.735	−42.841	−23.974	11.41	C
ATOM	4194	NE1	TRP	B1274	−30.673	−43.405	−24.622	9.81	N
ATOM	4195	CZ2	TRP	B1274	−28.617	−42.499	−25.784	6.65	C
ATOM	4196	CZ3	TRP	B1274	−28.6	−40.065	−25.824	9.41	C
ATOM	4197	CH2	TRP	B1274	−28.024	−41.323	−26.151	8.82	C
ATOM	4198	C	TRP	B1274	−30.795	−39.344	−21.861	10.81	C
ATOM	4199	O	TRP	B1274	−29.829	−39.961	−21.379	11.74	O
ATOM	4200	N	GLU	B1275	−30.715	−38.082	−22.242	10.72	N
ATOM	4201	CA	GLU	B1275	−29.426	−37.332	−22.148	10.68	C
ATOM	4202	CB	GLU	B1275	−29.639	−35.857	−22.527	10.88	C
ATOM	4203	CG	GLU	B1275	−30.153	−35.543	−23.903	11.46	C
ATOM	4204	CD	GLU	B1275	−30.4	−34.021	−24.049	14.34	C
ATOM	4205	OE1	GLU	B1275	−31.524	−33.501	−23.805	15.39	O
ATOM	4206	OE2	GLU	B1275	−29.401	−33.309	−24.396	22.77	O
ATOM	4207	C	GLU	B1275	−28.909	−37.315	−20.749	10.34	C
ATOM	4208	O	GLU	B1275	−27.707	−37.337	−20.528	10.71	O
ATOM	4209	N	LEU	B1276	−29.809	−37.115	−19.785	11.05	N
ATOM	4210	CA	LEU	B1276	−29.43	−37.1	−18.346	10.79	C
ATOM	4211	CB	LEU	B1276	−30.632	−36.812	−17.47	12.25	C
ATOM	4212	CG	LEU	B1276	−31.013	−35.427	−16.907	13.19	C
ATOM	4213	CD1	LEU	B1276	−30.601	−34.396	−17.903	20.48	C
ATOM	4214	CD2	LEU	B1276	−32.537	−35.354	−16.588	10.2	C
ATOM	4215	C	LEU	B1276	−28.834	−38.412	−17.94	10.65	C
ATOM	4216	O	LEU	B1276	−27.765	−38.417	−17.393	11.03	O
ATOM	4217	N	MET	B1277	−29.498	−39.527	−18.296	10.47	N
ATOM	4218	CA	MET	B1277	−29.091	−40.868	−17.899	10.55	C
ATOM	4219	CB	MET	B1277	−30.237	−41.888	−18.047	10.09	C
ATOM	4220	CG	MET	B1277	−31.411	−41.644	−17.096	14.97	C
ATOM	4221	SD	MET	B1277	−30.866	−41.259	−15.312	20.21	S
ATOM	4222	CE	MET	B1277	−31.078	−42.892	−14.719	17.84	C
ATOM	4223	C	MET	B1277	−27.823	−41.309	−18.596	10.99	C
ATOM	4224	O	MET	B1277	−27.194	−42.218	−18.136	12.08	O
ATOM	4225	N	THR	B1278	−27.456	−40.657	−19.701	12.51	N
ATOM	4226	CA	THR	B1278	−26.236	−40.961	−20.482	11.87	C
ATOM	4227	CB	THR	B1278	−26.515	−41.002	−21.99	12.63	C
ATOM	4228	OG1	THR	B1278	−27.031	−39.745	−22.452	8.58	O
ATOM	4229	CG2	THR	B1278	−27.547	−42.16	−22.375	10.3	C
ATOM	4230	C	THR	B1278	−25.239	−39.865	−20.205	13.76	C
ATOM	4231	O	THR	B1278	−24.179	−39.799	−20.812	14.83	O
ATOM	4232	N	ARG	B1279	−25.582	−39.023	−19.222	14.86	N
ATOM	4233	CA	ARG	B1279	−24.78	−37.831	−18.858	15.36	C
ATOM	4234	CB	ARG	B1279	−23.525	−38.248	−18.1	15.01	C
ATOM	4235	CG	ARG	B1279	−23.844	−38.717	−16.667	15.98	C
ATOM	4236	CD	ARG	B1279	−22.587	−38.783	−15.851	19.69	C
ATOM	4237	NE	ARG	B1279	−21.75	−37.562	−15.876	19.77	N
ATOM	4238	CZ	ARG	B1279	−20.576	−37.432	−15.229	19.3	C
ATOM	4239	NH1	ARG	B1279	−20.15	−38.439	−14.507	19.24	N
ATOM	4240	NH2	ARG	B1279	−19.831	−36.31	−15.296	18.68	N
ATOM	4241	C	ARG	B1279	−24.4	−37.045	−20.084	14.5	C
ATOM	4242	O	ARG	B1279	−23.215	−36.816	−20.333	13.92	O
ATOM	4243	N	GLY	B1280	−25.398	−36.714	−20.886	14.34	N
ATOM	4244	CA	GLY	B1280	−25.185	−35.899	−22.099	16.19	C
ATOM	4245	C	GLY	B1280	−24.691	−36.567	−23.394	17.54	C
ATOM	4246	O	GLY	B1280	−24.179	−35.859	−24.239	18.98	O
ATOM	4247	N	ALA	B1281	−24.788	−37.899	−23.583	17.6	N
ATOM	4248	CA	ALA	B1281	−24.37	−38.477	−24.854	17.07	C
ATOM	4249	CB	ALA	B1281	−24.456	−39.91	−24.849	17.2	C
ATOM	4250	C	ALA	B1281	−25.354	−37.928	−25.858	18.67	C
ATOM	4251	O	ALA	B1281	−26.479	−37.691	−25.487	18.23	O
ATOM	4252	N	PRO	B1282	−24.918	−37.652	−27.114	18.85	N
ATOM	4253	CD	PRO	B1282	−23.561	−37.714	−27.7	19.07	C
ATOM	4254	CA	PRO	B1282	−25.936	−37.183	−28.063	19.03	C
ATOM	4255	CB	PRO	B1282	−25.114	−36.547	−29.185	19.41	C
ATOM	4256	CG	PRO	B1282	−23.823	−37.421	−29.231	20.06	C
ATOM	4257	C	PRO	B1282	−26.794	−38.329	−28.631	18.75	C
ATOM	4258	O	PRO	B1282	−26.266	−39.369	−28.982	18.98	O
ATOM	4259	N	PRO	B1283	−28.118	−38.108	−28.775	19.17	N
ATOM	4260	CD	PRO	B1283	−28.853	−36.859	−28.437	18.86	C
ATOM	4261	CA	PRO	B1283	−29.024	−39.124	−29.297	19.02	C
ATOM	4262	CB	PRO	B1283	−30.43	−38.501	−29.009	18.56	C
ATOM	4263	CG	PRO	B1283	−30.258	−37.142	−28.879	17.23	C
ATOM	4264	C	PRO	B1283	−28.841	−39.395	−30.798	19.32	C
ATOM	4265	O	PRO	B1283	−28.662	−38.429	−31.591	21.46	O
ATOM	4266	N	TYR	B1284	−28.971	−40.664	−31.192	19.19	N
ATOM	4267	CA	TYR	B1284	−28.753	−41.129	−32.591	18.43	C
ATOM	4268	CB	TYR	B1284	−29.945	−40.797	−33.455	18.2	C
ATOM	4269	CG	TYR	B1284	−31.282	−40.712	−32.714	17.9	C
ATOM	4270	CD1	TYR	B1284	−32.126	−41.84	−32.634	12.98	C
ATOM	4271	CE1	TYR	B1284	−33.257	−41.797	−31.972	14.34	C
ATOM	4272	CD2	TYR	B1284	−31.705	−39.506	−32.127	14.75	C
ATOM	4273	CE2	TYR	B1284	−32.907	−39.437	−31.442	13.46	C
ATOM	4274	CZ	TYR	B1284	−33.697	−40.579	−31.388	16.98	C
ATOM	4275	OH	TYR	B1284	−34.93	−40.54	−30.755	16.26	O
ATOM	4276	C	TYR	B1284	−27.438	−40.55	−33.221	19.56	C
ATOM	4277	O	TYR	B1284	−27.451	−39.885	−34.266	17.04	O
ATOM	4278	N	PRO	B1285	−26.3	−40.75	−32.519	20.97	N
ATOM	4279	CD	PRO	B1285	−26.047	−41.534	−31.294	19.88	C
ATOM	4280	CA	PRO	B1285	−25.1	−40.093	−32.988	22.62	C
ATOM	4281	CB	PRO	B1285	−24.025	−40.589	−32	20.54	C
ATOM	4282	CG	PRO	B1285	−24.632	−41.818	−31.389	22.01	C
ATOM	4283	C	PRO	B1285	−24.786	−40.524	−34.415	24.49	C
ATOM	4284	O	PRO	B1285	−24.241	−39.737	−35.18	25.5	O
ATOM	4285	N	ASP	B1286	−25.164	−41.749	−34.766	27.37	N
ATOM	4286	CA	ASP	B1286	−24.704	−42.331	−36.018	31.08	C
ATOM	4287	CB	ASP	B1286	−24.187	−43.772	−35.778	32.37	C
ATOM	4288	CG	ASP	B1286	−22.72	−43.794	−35.198	37.41	C
ATOM	4289	OD1	ASP	B1286	−22.403	−44.628	−34.255	38.84	O
ATOM	4290	OD2	ASP	B1286	−21.907	−42.938	−35.687	38.04	O
ATOM	4291	C	ASP	B1286	−25.71	−42.214	−37.204	31.19	C
ATOM	4292	O	ASP	B1286	−25.473	−42.825	−38.251	31.88	O
ATOM	4293	N	VAL	B1287	−26.783	−41.421	−37.002	29.92	N
ATOM	4294	CA	VAL	B1287	−27.83	−41.055	−37.968	28.47	C
ATOM	4295	CB	VAL	B1287	−29.195	−41.458	−37.484	28.62	C
ATOM	4296	CG1	VAL	B1287	−29.805	−42.395	−38.473	30.75	C
ATOM	4297	CG2	VAL	B1287	−29.117	−42.081	−36.084	30.13	C
ATOM	4298	C	VAL	B1287	−28.018	−39.58	−38.409	27.43	C
ATOM	4299	O	VAL	B1287	−27.907	−38.621	−37.615	24.94	O
ATOM	4300	N	ASN	B1288	−28.357	−39.439	−39.7	25.37	N
ATOM	4301	CA	ASN	B1288	−28.695	−38.162	−40.252	23.52	C
ATOM	4302	CB	ASN	B1288	−28.217	−38.016	−41.715	24.34	C
ATOM	4303	CG	ASN	B1288	−29.032	−38.899	−42.718	22.8	C
ATOM	4304	OD1	ASN	B1288	−30.22	−39.086	−42.568	23.33	O
ATOM	4305	ND2	ASN	B1288	−28.376	−39.421	−43.706	18.01	N
ATOM	4306	C	ASN	B1288	−30.196	−38.069	−40.154	22.61	C
ATOM	4307	O	ASN	B1288	−30.911	−39.051	−39.908	21.14	O
ATOM	4308	N	THR	B1289	−30.686	−36.882	−40.389	21.92	N
ATOM	4309	CA	THR	B1289	−32.097	−36.631	−40.185	22.85	C
ATOM	4310	CB	THR	B1289	−32.339	−35.133	−40.101	22.97	C
ATOM	4311	OG1	THR	B1289	−32.875	−34.697	−41.323	27.53	O
ATOM	4312	CG2	THR	B1289	−31.049	−34.441	−39.957	21.76	C
ATOM	4313	C	THR	B1289	−33.046	−37.19	−41.219	22.8	C
ATOM	4314	O	THR	B1289	−34.233	−37.072	−41.045	23.92	O
ATOM	4315	N	PHE	B1290	−32.555	−37.753	−42.324	22.88	N
ATOM	4316	CA	PHE	B1290	−33.446	−38.501	−43.188	22.14	C
ATOM	4317	CB	PHE	B1290	−32.842	−38.696	−44.574	21.33	C
ATOM	4318	CG	PHE	B1290	−33.712	−39.497	−45.465	19.38	C
ATOM	4319	CD1	PHE	B1290	−34.76	−38.915	−46.123	17.77	C
ATOM	4320	CD2	PHE	B1290	−33.516	−40.86	−45.595	22.41	C
ATOM	4321	CE1	PHE	B1290	−35.614	−39.679	−46.916	20.2	C
ATOM	4322	CE2	PHE	B1290	−34.389	−41.647	−46.369	22.41	C
ATOM	4323	CZ	PHE	B1290	−35.419	−41.053	−47.042	20.49	C
ATOM	4324	C	PHE	B1290	−33.762	−39.853	−42.511	22.8	C
ATOM	4325	O	PHE	B1290	−34.938	−40.28	−42.341	23.53	O
ATOM	4326	N	ASP	B1291	−32.691	−40.489	−42.084	23.39	N
ATOM	4327	CA	ASP	B1291	−32.716	−41.81	−41.531	25.68	C
ATOM	4328	CB	ASP	B1291	−31.286	−42.354	−41.462	26.6	C
ATOM	4329	CG	ASP	B1291	−30.783	−42.791	−42.821	31.08	C
ATOM	4330	OD1	ASP	B1291	−30.091	−41.973	−43.493	39.79	O
ATOM	4331	OD2	ASP	B1291	−31.118	−43.917	−43.254	34.14	O
ATOM	4332	C	ASP	B1291	−33.404	−41.887	−40.173	25.96	C
ATOM	4333	O	ASP	B1291	−34.082	−42.896	−39.876	27.77	O
ATOM	4334	N	ILE	B1292	−33.219	−40.865	−39.354	24.64	N
ATOM	4335	CA	ILE	B1292	−33.978	−40.718	−38.086	24.06	C
ATOM	4336	CB	ILE	B1292	−33.717	−39.333	−37.395	23.91	C
ATOM	4337	CG2	ILE	B1292	−34.52	−38.228	−38.039	22.83	C
ATOM	4338	CG1	ILE	B1292	−34.137	−39.381	−35.934	25.2	C
ATOM	4339	CD1	ILE	B1292	−33.285	−40.209	−35.142	29.16	C
ATOM	4340	C	ILE	B1292	−35.493	−40.957	−38.258	22.98	C
ATOM	4341	O	ILE	B1292	−36.167	−41.598	−37.392	22.39	O
ATOM	4342	N	THR	B1293	−36.038	−40.498	−39.379	20.83	N
ATOM	4343	CA	THR	B1293	−37.497	−40.546	−39.512	19.69	C
ATOM	4344	CB	THR	B1293	−37.956	−39.539	−40.585	19.99	C
ATOM	4345	OG1	THR	B1293	−37.454	−38.237	−40.201	19.82	O
ATOM	4346	CG2	THR	B1293	−39.542	−39.516	−40.79	18.66	C
ATOM	4347	C	THR	B1293	−37.916	−41.972	−39.768	18.48	C
ATOM	4348	O	THR	B1293	−38.92	−42.457	−39.319	18.06	O
ATOM	4349	N	VAL	B1294	−37.033	−42.675	−40.427	19.37	N
ATOM	4350	CA	VAL	B1294	−37.265	−44.057	−40.852	18.14	C
ATOM	4351	CB	VAL	B1294	−36.276	−44.44	−41.987	16.93	C
ATOM	4352	CG1	VAL	B1294	−36.204	−45.932	−42.144	16.99	C
ATOM	4353	CG2	VAL	B1294	−36.642	−43.726	−43.24	16.98	C
ATOM	4354	C	VAL	B1294	−37.007	−44.934	−39.68	18.45	C
ATOM	4355	O	VAL	B1294	−37.697	−45.952	−39.506	20.56	O
ATOM	4356	N	TYR	B1295	−35.997	−44.564	−38.899	16.67	N
ATOM	4357	CA	TYR	B1295	−35.638	−45.276	−37.722	16.51	C
ATOM	4358	CB	TYR	B1295	−34.492	−44.495	−37.098	18.46	C
ATOM	4359	CG	TYR	B1295	−33.946	−45.014	−35.785	22.08	C
ATOM	4360	CD1	TYR	B1295	−32.897	−45.936	−35.786	18.65	C
ATOM	4361	CE1	TYR	B1295	−32.39	−46.441	−34.598	21.13	C
ATOM	4362	CD2	TYR	B1295	−34.508	−44.595	−34.522	20.64	C
ATOM	4363	CE2	TYR	B1295	−33.997	−45.107	−33.318	22.26	C
ATOM	4364	CZ	TYR	B1295	−32.924	−46.021	−33.376	22.13	C
ATOM	4365	OH	TYR	B1295	−32.382	−46.571	−32.246	22.52	O
ATOM	4366	C	TYR	B1295	−36.854	−45.256	−36.846	16	C
ATOM	4367	O	TYR	B1295	−37.362	−46.275	−36.484	16.15	O
ATOM	4368	N	LEU	B1296	−37.335	−44.069	−36.518	17.4	N
ATOM	4369	CA	LEU	B1296	−38.569	−43.871	−35.695	18.14	C
ATOM	4370	CB	LEU	B1296	−38.857	−42.369	−35.415	16.41	C
ATOM	4371	CG	LEU	B1296	−37.827	−41.579	−34.591	17.12	C
ATOM	4372	CD1	LEU	B1296	−38.248	−40.118	−34.316	17.69	C
ATOM	4373	CD2	LEU	B1296	−37.568	−42.248	−33.297	19.55	C
ATOM	4374	C	LEU	B1296	−39.796	−44.499	−36.276	19.05	C
ATOM	4375	O	LEU	B1296	−40.678	−45.011	−35.565	19.99	O
ATOM	4376	N	LEU	B1297	−39.903	−44.392	−37.584	21.12	N
ATOM	4377	CA	LEU	B1297	−41.05	−44.95	−38.301	21.99	C
ATOM	4378	CB	LEU	B1297	−41.041	−44.458	−39.76	22.16	C
ATOM	4379	CG	LEU	B1297	−42.349	−43.788	−40.253	24.1	C
ATOM	4380	CD1	LEU	B1297	−42.933	−42.852	−39.23	27.09	C
ATOM	4381	CD2	LEU	B1297	−42.214	−43.055	−41.568	22.63	C
ATOM	4382	C	LEU	B1297	−40.944	−46.474	−38.189	22.27	C
ATOM	4383	O	LEU	B1297	−41.937	−47.138	−38.123	23.87	O
ATOM	4384	N	GLN	B1298	−39.745	−47.049	−38.124	22.59	N
ATOM	4385	CA	GLN	B1298	−39.64	−48.519	−37.939	22.65	C
ATOM	4386	CB	GLN	B1298	−38.239	−49.031	−38.273	22.35	C
ATOM	4387	CG	GLN	B1298	−37.925	−48.986	−39.772	22.45	C
ATOM	4388	CD	GLN	B1298	−36.406	−48.945	−40.084	25.99	C
ATOM	4389	OE1	GLN	B1298	−35.576	−48.486	−39.278	28.63	O
ATOM	4390	NE2	GLN	B1298	−36.052	−49.376	−41.283	28.14	N
ATOM	4391	C	GLN	B1298	−40.01	−48.972	−36.511	21.75	C
ATOM	4392	O	GLN	B1298	−39.95	−50.191	−36.19	21.69	O
ATOM	4393	N	GLY	B1299	−40.401	−48.004	−35.663	19.9	N
ATOM	4394	CA	GLY	B1299	−40.685	−48.284	−34.269	16.6	C
ATOM	4395	C	GLY	B1299	−39.444	−48.332	−33.427	15.5	C
ATOM	4396	O	GLY	B1299	−39.528	−48.659	−32.23	18.01	O
ATOM	4397	N	ARG	B1300	−38.279	−48.013	−33.986	13.06	N
ATOM	4398	CA	ARG	B1300	−37.018	−48.036	−33.185	11.49	C
ATOM	4399	CB	ARG	B1300	−35.761	−48.001	−34.1	10.35	C
ATOM	4400	CG	ARG	B1300	−35.596	−49.253	−34.881	8.8	C
ATOM	4401	CD	ARG	B1300	−34.804	−49.057	−36.208	11.14	C
ATOM	4402	NE	ARG	B1300	−35.001	−50.267	−37.006	14.02	N
ATOM	4403	CZ	ARG	B1300	−34.449	−51.482	−36.788	14.19	C
ATOM	4404	NH1	ARG	B1300	−33.565	−51.753	−35.769	12.76	N
ATOM	4405	NH2	ARG	B1300	−34.807	−52.443	−37.609	7.95	N
ATOM	4406	C	ARG	B1300	−36.982	−46.825	−32.278	12.12	C
ATOM	4407	O	ARG	B1300	−37.476	−45.745	−32.664	11.41	O
ATOM	4408	N	ARG	B1301	−36.379	−47.001	−31.085	12.18	N
ATOM	4409	CA	ARG	B1301	−36.242	−45.941	−30.083	10.47	C
ATOM	4410	CB	ARG	B1301	−37.226	−46.167	−28.949	10.51	C
ATOM	4411	CG	ARG	B1301	−38.659	−45.805	−29.248	10.7	C
ATOM	4412	CD	ARG	B1301	−38.823	−44.561	−30.173	12.65	C
ATOM	4413	NE	ARG	B1301	−40.219	−44.305	−30.478	10.61	N
ATOM	4414	CZ	ARG	B1301	−40.823	−44.551	−31.628	13.77	C
ATOM	4415	NH1	ARG	B1301	−40.167	−45.018	−32.687	9.33	N
ATOM	4416	NH2	ARG	B1301	−42.121	−44.303	−31.709	16.57	N
ATOM	4417	C	ARG	B1301	−34.833	−45.866	−29.54	10.44	C
ATOM	4418	O	ARG	B1301	−33.998	−46.702	−29.83	9.22	O
ATOM	4419	N	LEU	B1302	−34.55	−44.825	−28.783	9.97	N
ATOM	4420	CA	LEU	B1302	−33.246	−44.705	−28.137	9.91	C
ATOM	4421	CB	LEU	B1302	−33.199	−43.365	−27.393	8.2	C
ATOM	4422	CG	LEU	B1302	−33.005	−42.134	−28.25	7.77	C
ATOM	4423	CD1	LEU	B1302	−33.264	−40.843	−27.548	2	C
ATOM	4424	CD2	LEU	B1302	−31.622	−42.163	−28.913	7.03	C
ATOM	4425	C	LEU	B1302	−33.065	−45.833	−27.143	9.92	C
ATOM	4426	O	LEU	B1302	−33.97	−46.117	−26.398	11.67	O
ATOM	4427	N	LEU	B1303	−31.895	−46.44	−27.111	11.44	N
ATOM	4428	CA	LEU	B1303	−31.592	−47.581	−26.212	14.3	C
ATOM	4429	CB	LEU	B1303	−30.298	−48.268	−26.624	12.85	C
ATOM	4430	CG	LEU	B1303	−30.486	−49.01	−27.953	17.01	C
ATOM	4431	CD1	LEU	B1303	−29.325	−49.927	−28.102	18.45	C
ATOM	4432	CD2	LEU	B1303	−31.815	−49.797	−28.015	16.49	C
ATOM	4433	C	LEU	B1303	−31.546	−47.25	−24.715	14.72	C
ATOM	4434	O	LEU	B1303	−31.279	−46.11	−24.356	14.39	O
ATOM	4435	N	GLN	B1304	−31.854	−48.245	−23.865	15.16	N
ATOM	4436	CA	GLN	B1304	−31.831	−47.99	−22.453	15.6	C
ATOM	4437	CB	GLN	B1304	−32.393	−49.143	−21.651	14.32	C
ATOM	4438	CG	GLN	B1304	−32.316	−48.821	−20.17	16.69	C
ATOM	4439	CD	GLN	B1304	−33.193	−49.657	−19.327	17.17	C
ATOM	4440	OE1	GLN	B1304	−33.604	−49.242	−18.239	20.26	O
ATOM	4441	NE2	GLN	B1304	−33.452	−50.876	−19.778	19.03	N
ATOM	4442	C	GLN	B1304	−30.407	−47.632	−22.036	16.11	C
ATOM	4443	O	GLN	B1304	−29.497	−48.327	−22.357	18.26	O
ATOM	4444	N	PRO	B1305	−30.193	−46.471	−21.426	16.5	N
ATOM	4445	CD	PRO	B1305	−31.101	−45.362	−21.151	15.37	C
ATOM	4446	CA	PRO	B1305	−28.853	−46.198	−20.991	17.68	C
ATOM	4447	CB	PRO	B1305	−28.946	−44.768	−20.507	17.49	C
ATOM	4448	CG	PRO	B1305	−30.161	−44.252	−21.136	17.86	C
ATOM	4449	C	PRO	B1305	−28.443	−47.116	−19.839	20	C
ATOM	4450	O	PRO	B1305	−29.298	−47.56	−19.067	19.29	O
ATOM	4451	N	GLU	B1306	−27.158	−47.439	−19.757	22.81	N
ATOM	4452	CA	GLU	B1306	−26.626	−48.241	−18.644	26.21	C
ATOM	4453	CB	GLU	B1306	−25.118	−48.456	−18.828	25.64	C
ATOM	4454	CG	GLU	B1306	−24.533	−49.314	−17.738	27.34	C
ATOM	4455	CD	GLU	B1306	−23.03	−49.575	−17.862	30.37	C
ATOM	4456	OE1	GLU	B1306	−22.589	−50.618	−17.295	36.66	O
ATOM	4457	OE2	GLU	B1306	−22.289	−48.75	−18.461	32.22	O
ATOM	4458	C	GLU	B1306	−26.871	−47.488	−17.331	27.16	C
ATOM	4459	O	GLU	B1306	−26.692	−46.268	−17.269	29.39	O
ATOM	4460	N	TYR	B1307	−27.253	−48.177	−16.268	27.98	N
ATOM	4461	CA	TYR	B1307	−27.544	−47.459	−14.999	28.39	C
ATOM	4462	CB	TYR	B1307	−26.449	−46.465	−14.617	30.07	C
ATOM	4463	CG	TYR	B1307	−25.01	−46.917	−14.645	32.11	C
ATOM	4464	CD1	TYR	B1307	−24.052	−46.15	−15.339	33.72	C
ATOM	4465	CE1	TYR	B1307	−22.695	−46.523	−15.342	33.05	C
ATOM	4466	CD2	TYR	B1307	−24.578	−48.076	−13.95	33.11	C
ATOM	4467	CE2	TYR	B1307	−23.218	−48.466	−13.973	34.52	C
ATOM	4468	CZ	TYR	B1307	−22.305	−47.662	−14.672	33.21	C
ATOM	4469	OH	TYR	B1307	−20.998	−47.985	−14.726	35.57	O
ATOM	4470	C	TYR	B1307	−28.861	−46.67	−14.974	27.38	C
ATOM	4471	O	TYR	B1307	−29.237	−46.121	−13.927	27.77	O
ATOM	4472	N	CYS	B1308	−29.532	−46.556	−16.106	25.63	N
ATOM	4473	CA	CYS	B1308	−30.936	−46.164	−16.106	24.55	C
ATOM	4474	CB	CYS	B1308	−31.397	−45.777	−17.483	22.73	C
ATOM	4475	SG	CYS	B1308	−33.095	−45.158	−17.55	23.51	S
ATOM	4476	C	CYS	B1308	−31.832	−47.271	−15.538	24.84	C
ATOM	4477	O	CYS	B1308	−31.897	−48.393	−16.081	23.68	O
ATOM	4478	N	PRO	B1309	−32.6	−46.935	−14.466	25.41	N
ATOM	4479	CD	PRO	B1309	−32.656	−45.647	−13.763	24.46	C
ATOM	4480	CA	PRO	B1309	−33.584	−47.895	−13.88	24.77	C
ATOM	4481	CB	PRO	B1309	−34.204	−47.104	−12.715	23.63	C
ATOM	4482	CG	PRO	B1309	−33.172	−46.086	−12.433	25.74	C
ATOM	4483	C	PRO	B1309	−34.642	−48.229	−14.909	24.26	C
ATOM	4484	O	PRO	B1309	−34.95	−47.377	−15.795	23.66	O
ATOM	4485	N	ASP	B1310	−35.19	−49.439	−14.799	24.29	N
ATOM	4486	CA	ASP	B1310	−36.185	−49.915	−15.796	24.2	C
ATOM	4487	CB	ASP	B1310	−36.631	−51.401	−15.563	26.57	C
ATOM	4488	CG	ASP	B1310	−35.495	−52.422	−15.751	29.97	C
ATOM	4489	OD1	ASP	B1310	−34.485	−52.019	−16.361	36.47	O
ATOM	4490	OD2	ASP	B1310	−35.597	−53.597	−15.263	30.68	O
ATOM	4491	C	ASP	B1310	−37.418	−49.003	−15.83	21.98	C
ATOM	4492	O	ASP	B1310	−37.941	−48.708	−16.926	21.91	O
ATOM	4493	N	PRO	B1311	−37.923	−48.602	−14.646	19.96	N
ATOM	4494	CD	PRO	B1311	−37.599	−49.016	−13.268	20.32	C
ATOM	4495	CA	PRO	B1311	−39.113	−47.777	−14.668	19.05	C
ATOM	4496	CB	PRO	B1311	−39.524	−47.708	−13.183	18.27	C
ATOM	4497	CG	PRO	B1311	−38.379	−48.115	−12.44	18.5	C
ATOM	4498	C	PRO	B1311	−38.918	−46.399	−15.249	17.86	C
ATOM	4499	O	PRO	B1311	−39.899	−45.735	−15.688	17.53	O
ATOM	4500	N	LEU	B1312	−37.67	−45.965	−15.271	16.14	N
ATOM	4501	CA	LEU	B1312	−37.465	−44.677	−15.858	16.38	C
ATOM	4502	CB	LEU	B1312	−36.183	−43.984	−15.37	16.29	C
ATOM	4503	CG	LEU	B1312	−36.067	−42.524	−15.792	16.08	C
ATOM	4504	CD1	LEU	B1312	−37.295	−41.659	−15.348	11.99	C
ATOM	4505	CD2	LEU	B1312	−34.769	−41.986	−15.207	17.66	C
ATOM	4506	C	LEU	B1312	−37.488	−44.812	−17.338	16.51	C
ATOM	4507	O	LEU	B1312	−38.021	−43.942	−17.987	18.01	O
ATOM	4508	N	TYR	B1313	−36.933	−45.913	−17.868	17.37	N
ATOM	4509	CA	TYR	B1313	−36.921	−46.179	−19.269	16.68	C
ATOM	4510	CB	TYR	B1313	−36.045	−47.372	−19.607	18.13	C
ATOM	4511	CG	TYR	B1313	−35.809	−47.569	−21.126	19.09	C
ATOM	4512	CD1	TYR	B1313	−35.4	−46.494	−21.925	17.61	C
ATOM	4513	CE1	TYR	B1313	−35.201	−46.641	−23.29	14.2	C
ATOM	4514	CD2	TYR	B1313	−36.056	−48.82	−21.769	17.57	C
ATOM	4515	CE2	TYR	B1313	−35.828	−48.972	−23.114	13.44	C
ATOM	4516	CZ	TYR	B1313	−35.396	−47.877	−23.866	15.63	C
ATOM	4517	OH	TYR	B1313	−35.189	−47.951	−25.217	17.24	O
ATOM	4518	C	TYR	B1313	−38.286	−46.441	−19.728	17.75	C
ATOM	4519	O	TYR	B1313	−38.61	−46.123	−20.875	18.79	O
ATOM	4520	N	GLU	B1314	−39.111	−47.023	−18.873	18.63	N
ATOM	4521	CA	GLU	B1314	−40.523	−47.214	−19.258	21.23	C
ATOM	4522	CB	GLU	B1314	−41.366	−48.074	−18.279	22.12	C
ATOM	4523	CG	GLU	B1314	−42.245	−49.17	−19.065	33.76	C
ATOM	4524	CD	GLU	B1314	−43.49	−48.606	−19.922	44.3	C
ATOM	4525	OE1	GLU	B1314	−43.455	−48.565	−21.212	43.29	O
ATOM	4526	OE2	GLU	B1314	−44.521	−48.207	−19.278	47.53	O
ATOM	4527	C	GLU	B1314	−41.229	−45.89	−19.486	19.2	C
ATOM	4528	O	GLU	B1314	−42.049	−45.786	−20.418	18.94	O
ATOM	4529	N	VAL	B1315	−40.898	−44.905	−18.64	16.5	N
ATOM	4530	CA	VAL	B1315	−41.316	−43.504	−18.813	15.13	C
ATOM	4531	CB	VAL	B1315	−40.713	−42.501	−17.729	15.61	C
ATOM	4532	CG1	VAL	B1315	−41.278	−41.055	−17.932	14.24	C
ATOM	4533	CG2	VAL	B1315	−40.98	−43.034	−16.234	13.55	C
ATOM	4534	C	VAL	B1315	−40.922	−43.015	−20.153	14.83	C
ATOM	4535	O	VAL	B1315	−41.775	−42.65	−20.949	15.7	O
ATOM	4536	N	MET	B1316	−39.633	−43.05	−20.434	15.52	N
ATOM	4537	CA	MET	B1316	−39.114	−42.518	−21.691	17.71	C
ATOM	4538	CB	MET	B1316	−37.623	−42.804	−21.81	18.78	C
ATOM	4539	CG	MET	B1316	−36.714	−42.253	−20.696	17.64	C
ATOM	4540	SD	MET	B1316	−35.014	−42.678	−21.236	22.89	S
ATOM	4541	CE	MET	B1316	−34.237	−43.094	−19.653	17.64	C
ATOM	4542	C	MET	B1316	−39.821	−43.142	−22.882	16.73	C
ATOM	4543	O	MET	B1316	−40.287	−42.435	−23.76	17.39	O
ATOM	4544	N	LEU	B1317	−39.934	−44.469	−22.886	16.32	N
ATOM	4545	CA	LEU	B1317	−40.676	−45.179	−23.93	15.32	C
ATOM	4546	CB	LEU	B1317	−40.662	−46.667	−23.706	15.3	C
ATOM	4547	CG	LEU	B1317	−39.334	−47.379	−23.955	14.27	C
ATOM	4548	CD1	LEU	B1317	−39.561	−48.82	−23.47	8.02	C
ATOM	4549	CD2	LEU	B1317	−38.892	−47.248	−25.466	9.83	C
ATOM	4550	C	LEU	B1317	−42.099	−44.727	−24.053	14.63	C
ATOM	4551	O	LEU	B1317	−42.565	−44.533	−25.151	15.33	O
ATOM	4552	N	LYS	B1318	−42.787	−44.512	−22.949	14.75	N
ATOM	4553	CA	LYS	B1318	−44.142	−43.957	−23.059	16.87	C
ATOM	4554	CB	LYS	B1318	−44.887	−43.938	−21.685	18.94	C
ATOM	4555	CG	LYS	B1318	−45.16	−45.282	−21.027	19.41	C
ATOM	4556	CD	LYS	B1318	−46.49	−45.359	−20.291	25.33	C
ATOM	4557	CE	LYS	B1318	−46.597	−46.665	−19.415	28.28	C
ATOM	4558	NZ	LYS	B1318	−45.911	−46.56	−18.01	30.63	N
ATOM	4559	C	LYS	B1318	−44.077	−42.499	−23.668	16.78	C
ATOM	4560	O	LYS	B1318	−45.021	−42.028	−24.327	18.11	O
ATOM	4561	N	CYS	B1319	−42.999	−41.776	−23.414	14.19	N
ATOM	4562	CA	CYS	B1319	−42.924	−40.434	−23.935	14.09	C
ATOM	4563	CB	CYS	B1319	−41.718	−39.695	−23.331	14.7	C
ATOM	4564	SG	CYS	B1319	−41.84	−39.372	−21.566	11.89	S
ATOM	4565	C	CYS	B1319	−42.792	−40.447	−25.456	13.72	C
ATOM	4566	O	CYS	B1319	−43.091	−39.457	−26.064	13.34	O
ATOM	4567	N	TRP	B1320	−42.324	−41.566	−26.028	13.62	N
ATOM	4568	CA	TRP	B1320	−41.978	−41.687	−27.437	14.07	C
ATOM	4569	CB	TRP	B1320	−40.553	−42.252	−27.636	11.41	C
ATOM	4570	CG	TRP	B1320	−39.484	−41.481	−26.985	11.53	C
ATOM	4571	CD2	TRP	B1320	−38.262	−42.01	−26.378	15.7	C
ATOM	4572	CE2	TRP	B1320	−37.53	−40.897	−25.884	13.52	C
ATOM	4573	CE3	TRP	B1320	−37.735	−43.317	−26.194	8.48	C
ATOM	4574	CD1	TRP	B1320	−39.384	−40.132	−26.883	10.51	C
ATOM	4575	NE1	TRP	B1320	−38.257	−39.769	−26.169	9.79	N
ATOM	4576	CZ2	TRP	B1320	−36.315	−41.053	−25.226	11.01	C
ATOM	4577	CZ3	TRP	B1320	−36.609	−43.469	−25.541	8.17	C
ATOM	4578	CH2	TRP	B1320	−35.888	−42.337	−25.043	12.57	C
ATOM	4579	C	TRP	B1320	−42.987	−42.565	−28.133	15.9	C
ATOM	4580	O	TRP	B1320	−42.714	−43.143	−29.198	16.2	O
ATOM	4581	N	HIS	B1321	−44.173	−42.685	−27.532	17.08	N
ATOM	4582	CA	HIS	B1321	−45.261	−43.363	−28.185	15.92	C
ATOM	4583	CB	HIS	B1321	−46.5	−43.344	−27.347	14.2	C
ATOM	4584	CG	HIS	B1321	−47.434	−44.45	−27.703	19.14	C
ATOM	4585	CD2	HIS	B1321	−47.608	−45.684	−27.166	22.36	C
ATOM	4586	ND1	HIS	B1321	−48.269	−44.394	−28.79	26.22	N
ATOM	4587	CE1	HIS	B1321	−48.952	−45.526	−28.89	24.74	C
ATOM	4588	NE2	HIS	B1321	−48.567	−46.322	−27.911	23.76	N
ATOM	4589	C	HIS	B1321	−45.551	−42.714	−29.528	16.58	C
ATOM	4590	O	HIS	B1321	−45.591	−41.478	−29.617	18.29	O
ATOM	4591	N	PRO	B1322	−45.786	−43.53	−30.577	16.64	N
ATOM	4592	CD	PRO	B1322	−45.701	−45.007	−30.548	16.05	C
ATOM	4593	CA	PRO	B1322	−46.182	−43.061	−31.892	16.76	C
ATOM	4594	CB	PRO	B1322	−46.609	−44.369	−32.58	17.01	C
ATOM	4595	CG	PRO	B1322	−45.74	−45.372	−31.976	14.36	C
ATOM	4596	C	PRO	B1322	−47.376	−42.105	−31.842	17.71	C
ATOM	4597	O	PRO	B1322	−47.397	−41.119	−32.583	16.57	O
ATOM	4598	N	LYS	B1323	−48.366	−42.426	−30.988	18.6	N
ATOM	4599	CA	LYS	B1323	−49.609	−41.605	−30.857	20.46	C
ATOM	4600	CB	LYS	B1323	−50.852	−42.449	−30.599	20.9	C
ATOM	4601	CG	LYS	B1323	−50.822	−43.817	−31.131	26.18	C
ATOM	4602	CD	LYS	B1323	−51.711	−43.993	−32.377	33.01	C
ATOM	4603	CE	LYS	B1323	−52.13	−45.519	−32.59	36.06	C
ATOM	4604	NZ	LYS	B1323	−52.282	−45.886	−34.085	37.09	N
ATOM	4605	C	LYS	B1323	−49.494	−40.621	−29.71	19	C
ATOM	4606	O	LYS	B1323	−49.409	−41.013	−28.554	17.22	O
ATOM	4607	N	ALA	B1324	−49.491	−39.356	−30.06	19.16	N
ATOM	4608	CA	ALA	B1324	−49.339	−38.265	−29.085	20.18	C
ATOM	4609	CB	ALA	B1324	−49.562	−36.911	−29.773	19.6	C
ATOM	4610	C	ALA	B1324	−50.25	−38.408	−27.868	20.98	C
ATOM	4611	O	ALA	B1324	−49.836	−38.189	−26.728	21.38	O
ATOM	4612	N	GLU	B1325	−51.495	−38.801	−28.113	22.65	N
ATOM	4613	CA	GLU	B1325	−52.46	−38.931	−27.031	24.7	C
ATOM	4614	CB	GLU	B1325	−53.939	−38.946	−27.489	25.28	C
ATOM	4615	CG	GLU	B1325	−54.193	−38.902	−28.924	30.62	C
ATOM	4616	CD	GLU	B1325	−53.75	−40.2	−29.585	36.79	C
ATOM	4617	OE1	GLU	B1325	−53.291	−40.133	−30.771	36.59	O
ATOM	4618	OE2	GLU	B1325	−53.846	−41.257	−28.888	38.64	O
ATOM	4619	C	GLU	B1325	−52.186	−40.048	−26.063	23.25	C
ATOM	4620	O	GLU	B1325	−52.792	−40.066	−24.997	24.62	O
ATOM	4621	N	MET	B1326	−51.276	−40.945	−26.409	22.92	N
ATOM	4622	CA	MET	B1326	−50.868	−42.053	−25.54	23.34	C
ATOM	4623	CB	MET	B1326	−50.321	−43.185	−26.382	24.62	C
ATOM	4624	CG	MET	B1326	−51.294	−43.556	−27.446	32.3	C
ATOM	4625	SD	MET	B1326	−52.808	−44.354	−26.742	38.17	S
ATOM	4626	CE	MET	B1326	−52.914	−45.848	−27.84	34.43	C
ATOM	4627	C	MET	B1326	−49.748	−41.628	−24.606	21.64	C
ATOM	4628	O	MET	B1326	−49.332	−42.397	−23.734	22.41	O
ATOM	4629	N	ARG	B1327	−49.245	−40.425	−24.821	18.28	N
ATOM	4630	CA	ARG	B1327	−48.081	−39.982	−24.146	16.16	C
ATOM	4631	CB	ARG	B1327	−47.379	−38.925	−24.998	14.09	C
ATOM	4632	CG	ARG	B1327	−46.835	−39.546	−26.213	13.42	C
ATOM	4633	CD	ARG	B1327	−45.957	−38.589	−26.997	13.18	C
ATOM	4634	NE	ARG	B1327	−45.905	−39.079	−28.352	11.83	N
ATOM	4635	CZ	ARG	B1327	−45.771	−38.322	−29.438	13.53	C
ATOM	4636	NH1	ARG	B1327	−45.625	−37.033	−29.301	13.63	N
ATOM	4637	NH2	ARG	B1327	−45.765	−38.877	−30.668	12.12	N
ATOM	4638	C	ARG	B1327	−48.55	−39.447	−22.818	15.22	C
ATOM	4639	O	ARG	B1327	−49.596	−38.751	−22.766	15.83	O
ATOM	4640	N	PRO	B1328	−47.788	−39.734	−21.739	14.57	N
ATOM	4641	CD	PRO	B1328	−46.543	−40.522	−21.631	15.56	C
ATOM	4642	CA	PRO	B1328	−48.155	−39.17	−20.447	14.81	C
ATOM	4643	CB	PRO	B1328	−47.009	−39.646	−19.526	14.49	C
ATOM	4644	CG	PRO	B1328	−45.89	−39.938	−20.437	14.09	C
ATOM	4645	C	PRO	B1328	−48.168	−37.63	−20.504	14.44	C
ATOM	4646	O	PRO	B1328	−47.362	−37.037	−21.186	14.21	O
ATOM	4647	N	SER	B1329	−49.061	−37.013	−19.76	15.23	N
ATOM	4648	CA	SER	B1329	−49.065	−35.577	−19.489	15.32	C
ATOM	4649	CB	SER	B1329	−50.377	−35.136	−18.769	16.24	C
ATOM	4650	OG	SER	B1329	−50.475	−35.595	−17.432	17.82	O
ATOM	4651	C	SER	B1329	−47.953	−35.272	−18.598	14.45	C
ATOM	4652	O	SER	B1329	−47.386	−36.189	−17.96	15.18	O
ATOM	4653	N	PHE	B1330	−47.618	−33.985	−18.5	15.11	N
ATOM	4654	CA	PHE	B1330	−46.528	−33.582	−17.536	13.94	C
ATOM	4655	CB	PHE	B1330	−46.061	−32.16	−17.801	12.57	C
ATOM	4656	CG	PHE	B1330	−45.132	−32.059	−18.976	7.65	C
ATOM	4657	CD1	PHE	B1330	−43.828	−32.576	−18.882	5.76	C
ATOM	4658	CD2	PHE	B1330	−45.551	−31.446	−20.148	3.23	C
ATOM	4659	CE1	PHE	B1330	−42.976	−32.543	−19.978	9.3	C
ATOM	4660	CE2	PHE	B1330	−44.681	−31.378	−21.294	5.74	C
ATOM	4661	CZ	PHE	B1330	−43.408	−31.926	−21.219	6.8	C
ATOM	4662	C	PHE	B1330	−46.793	−33.884	−16.06	14.54	C
ATOM	4663	O	PHE	B1330	−45.891	−34.202	−15.333	14.93	O
ATOM	4664	N	SER	B1331	−48.054	−33.866	−15.675	16.48	N
ATOM	4665	CA	SER	B1331	−48.5	−34.249	−14.339	18.67	C
ATOM	4666	CB	SER	B1331	−50.03	−34.095	−14.237	19.21	C
ATOM	4667	OG	SER	B1331	−50.368	−32.723	−14.292	22.71	O
ATOM	4668	C	SER	B1331	−48.175	−35.696	−14.026	19.57	C
ATOM	4669	O	SER	B1331	−47.687	−35.99	−12.934	20.05	O
ATOM	4670	N	GLU	B1332	−48.47	−36.604	−14.96	19.67	N
ATOM	4671	CA	GLU	B1332	−48.151	−38.023	−14.72	20.35	C
ATOM	4672	CB	GLU	B1332	−48.712	−38.922	−15.844	21.1	C
ATOM	4673	CG	GLU	B1332	−49.989	−38.333	−16.37	25.88	C
ATOM	4674	CD	GLU	B1332	−50.609	−39.105	−17.505	32.07	C
ATOM	4675	OE1	GLU	B1332	−50.996	−40.266	−17.25	37.09	O
ATOM	4676	OE2	GLU	B1332	−50.743	−38.557	−18.626	29.37	O
ATOM	4677	C	GLU	B1332	−46.666	−38.179	−14.629	17.39	C
ATOM	4678	O	GLU	B1332	−46.157	−38.872	−13.803	18.56	O
ATOM	4679	N	LEU	B1333	−45.962	−37.512	−15.49	17.55	N
ATOM	4680	CA	LEU	B1333	−44.492	−37.546	−15.487	17	C
ATOM	4681	CB	LEU	B1333	−43.952	−36.584	−16.542	16.13	C
ATOM	4682	CG	LEU	B1333	−43.485	−37.135	−17.893	16.66	C
ATOM	4683	CD1	LEU	B1333	−43.469	−38.652	−18.04	11.84	C
ATOM	4684	CD2	LEU	B1333	−44.25	−36.425	−18.993	15.31	C
ATOM	4685	C	LEU	B1333	−43.949	−37.147	−14.136	17.56	C
ATOM	4686	O	LEU	B1333	−43.079	−37.842	−13.573	17.14	O
ATOM	4687	N	VAL	B1334	−44.455	−36.034	−13.593	17.51	N
ATOM	4688	CA	VAL	B1334	−43.955	−35.678	−12.272	18.47	C
ATOM	4689	CB	VAL	B1334	−44.143	−34.153	−11.829	18.11	C
ATOM	4690	CG1	VAL	B1334	−44.442	−33.243	−13.018	14.01	C
ATOM	4691	CG2	VAL	B1334	−45.126	−34.083	−10.693	15.6	C
ATOM	4692	C	VAL	B1334	−44.396	−36.63	−11.139	19.77	C
ATOM	4693	O	VAL	B1334	−43.644	−36.832	−10.142	19.19	O
ATOM	4694	N	SER	B1335	−45.588	−37.22	−11.291	19.42	N
ATOM	4695	CA	SER	B1335	−45.993	−38.174	−10.308	20.01	C
ATOM	4696	CB	SER	B1335	−47.422	−38.604	−10.5	19.55	C
ATOM	4697	OG	SER	B1335	−48.127	−37.893	−9.525	24.31	O
ATOM	4698	C	SER	B1335	−45.084	−39.35	−10.397	20.57	C
ATOM	4699	O	SER	B1335	−44.477	−39.799	−9.382	22.6	O
ATOM	4700	N	ARG	B1336	−44.932	−39.81	−11.615	19.14	N
ATOM	4701	CA	ARG	B1336	−44.274	−41.073	−11.816	20.87	C
ATOM	4702	CB	ARG	B1336	−44.554	−41.564	−13.257	21.65	C
ATOM	4703	CG	ARG	B1336	−43.906	−42.881	−13.563	25.26	C
ATOM	4704	CD	ARG	B1336	−44.784	−44.042	−13.136	30.89	C
ATOM	4705	NE	ARG	B1336	−43.944	−45.064	−12.524	34.5	N
ATOM	4706	CZ	ARG	B1336	−44.048	−45.462	−11.251	37.83	C
ATOM	4707	NH1	ARG	B1336	−43.176	−46.392	−10.831	34.4	N
ATOM	4708	NH2	ARG	B1336	−45.001	−44.926	−10.416	33	N
ATOM	4709	C	ARG	B1336	−42.772	−40.978	−11.488	19.91	C
ATOM	4710	O	ARG	B1336	−42.178	−41.918	−10.906	20.62	O
ATOM	4711	N	ILE	B1337	−42.183	−39.828	−11.823	17.75	N
ATOM	4712	CA	ILE	B1337	−40.813	−39.639	−11.58	17.06	C
ATOM	4713	CB	ILE	B1337	−40.183	−38.583	−12.531	17.62	C
ATOM	4714	CG2	ILE	B1337	−38.69	−38.364	−12.157	16.92	C
ATOM	4715	CG1	ILE	B1337	−40.247	−39.011	−14.001	16.78	C
ATOM	4716	CD1	ILE	B1337	−40.004	−37.848	−15.033	17.27	C
ATOM	4717	C	ILE	B1337	−40.514	−39.39	−10.072	17.05	C
ATOM	4718	O	ILE	B1337	−39.44	−39.766	−9.582	16.58	O
ATOM	4719	N	SER	B1338	−41.446	−38.791	−9.323	17.74	N
ATOM	4720	CA	SER	B1338	−41.214	−38.622	−7.839	19.11	C
ATOM	4721	CB	SER	B1338	−42.322	−37.796	−7.116	18.77	C
ATOM	4722	OG	SER	B1338	−42.68	−36.632	−7.87	21.59	O
ATOM	4723	C	SER	B1338	−41.086	−39.958	−7.155	17.75	C
ATOM	4724	O	SER	B1338	−40.175	−40.172	−6.406	18.2	O
ATOM	4725	N	ALA	B1339	−42.03	−40.827	−7.479	18.2	N
ATOM	4726	CA	ALA	B1339	−42.127	−42.207	−7.068	17.95	C
ATOM	4727	CB	ALA	B1339	−43.227	−42.836	−7.861	16.27	C
ATOM	4728	C	ALA	B1339	−40.84	−42.941	−7.32	19.39	C
ATOM	4729	O	ALA	B1339	−40.314	−43.655	−6.409	21.18	O
ATOM	4730	N	ILE	B1340	−40.301	−42.781	−8.552	20.07	N
ATOM	4731	CA	ILE	B1340	−39.065	−43.48	−8.95	17.93	C
ATOM	4732	CB	ILE	B1340	−38.853	−43.383	−10.432	17.93	C
ATOM	4733	CG2	ILE	B1340	−37.443	−43.926	−10.849	16.49	C
ATOM	4734	CG1	ILE	B1340	−39.964	−44.074	−11.175	17.37	C
ATOM	4735	CD1	ILE	B1340	−39.847	−44.016	−12.777	16.33	C
ATOM	4736	C	ILE	B1340	−37.884	−42.87	−8.179	18.75	C
ATOM	4737	O	ILE	B1340	−36.949	−43.573	−7.793	17.26	O
ATOM	4738	N	PHE	B1341	−37.965	−41.545	−7.969	20.47	N
ATOM	4739	CA	PHE	B1341	−36.935	−40.757	−7.283	20.98	C
ATOM	4740	CB	PHE	B1341	−37.206	−39.264	−7.419	19.62	C
ATOM	4741	CG	PHE	B1341	−36.215	−38.396	−6.69	17.4	C
ATOM	4742	CD1	PHE	B1341	−34.924	−38.216	−7.209	18.52	C
ATOM	4743	CD2	PHE	B1341	−36.562	−37.789	−5.463	15.18	C
ATOM	4744	CE1	PHE	B1341	−33.962	−37.381	−6.529	22.53	C
ATOM	4745	CE2	PHE	B1341	−35.657	−36.973	−4.732	19.9	C
ATOM	4746	CZ	PHE	B1341	−34.31	−36.737	−5.272	21.72	C
ATOM	4747	C	PHE	B1341	−36.898	−41.127	−5.827	23.05	C
ATOM	4748	O	PHE	B1341	−35.809	−41.317	−5.277	23.42	O
ATOM	4749	N	SER	B1342	−38.062	−41.212	−5.201	25.6	N
ATOM	4750	CA	SER	B1342	−38.149	−41.713	−3.819	31.43	C
ATOM	4751	CB	SER	B1342	−39.567	−41.807	−3.363	31.39	C
ATOM	4752	OG	SER	B1342	−39.717	−40.757	−2.434	36.05	O
ATOM	4753	C	SER	B1342	−37.516	−43.06	−3.501	34.23	C
ATOM	4754	O	SER	B1342	−36.693	−43.154	−2.57	35.16	O
ATOM	4755	N	THR	B1343	−37.901	−44.101	−4.257	36.83	N
ATOM	4756	CA	THR	B1343	−37.229	−45.397	−4.165	38.38	C
ATOM	4757	CB	THR	B1343	−37.554	−46.287	−5.308	38.54	C
ATOM	4758	OG1	THR	B1343	−36.597	−46.025	−6.353	38.96	O
ATOM	4759	CG2	THR	B1343	−38.995	−46.003	−5.763	37.89	C
ATOM	4760	C	THR	B1343	−35.742	−45.266	−4.224	39.74	C
ATOM	4761	O	THR	B1343	−35.032	−46.224	−3.938	41.03	O
ATOM	4762	N	PHE	B1344	−35.233	−44.1	−4.58	41.26	N
ATOM	4763	CA	PHE	B1344	−33.799	−44.038	−4.73	42.8	C
ATOM	4764	CB	PHE	B1344	−33.345	−43.216	−5.903	41.57	C
ATOM	4765	CG	PHE	B1344	−32.811	−44.036	−6.983	38.68	C
ATOM	4766	CD1	PHE	B1344	−33.674	−44.636	−7.897	39.26	C
ATOM	4767	CD2	PHE	B1344	−31.458	−44.289	−7.056	35.03	C
ATOM	4768	CE1	PHE	B1344	−33.166	−45.431	−8.921	37.52	C
ATOM	4769	CE2	PHE	B1344	−30.932	−45.052	−8.046	33.41	C
ATOM	4770	CZ	PHE	B1344	−31.769	−45.642	−8.984	38.56	C
ATOM	4771	C	PHE	B1344	−32.936	−43.789	−3.544	45.59	C
ATOM	4772	O	PHE	B1344	−33.206	−42.962	−2.646	45.42	O
ATOM	4773	N	ILE	B1345	−31.827	−44.505	−3.656	49.05	N
ATOM	4774	CA	ILE	B1345	−30.833	−44.778	−2.628	51.82	C
ATOM	4775	CB	ILE	B1345	−31.443	−44.651	−1.138	52.15	C
ATOM	4776	CG2	ILE	B1345	−32.243	−45.949	−0.677	53.65	C
ATOM	4777	CG1	ILE	B1345	−30.429	−44.02	−0.126	52.44	C
ATOM	4778	CD1	ILE	B1345	−29.161	−44.876	0.167	49.33	C
ATOM	4779	C	ILE	B1345	−30.383	−46.197	−3.124	53.09	C
ATOM	4780	O	ILE	B1345	−29.175	−46.436	−3.442	53.28	O
ATOM	4781	N	GLY	B1346	−31.38	−47.09	−3.271	53.8	N
ATOM	4782	CA	GLY	B1346	−31.227	−48.359	−3.998	54.24	C
ATOM	4783	C	GLY	B1346	−32.269	−48.514	−5.109	54.24	C
ATOM	4784	O	GLY	B1346	−32.572	−47.603	−5.915	53.17	O
ATOM	4785	OXT	GLY	B1346	−32.842	−49.608	−5.198	54.15	O
ATOM	4786	C18	M97	C1	−6.757	10.413	1.931	13.34	C
ATOM	4787	C17	M97	C1	−6.821	11.541	2.986	11.83	C
ATOM	4788	C16	M97	C1	−5.784	12.663	2.878	15.81	C
ATOM	4789	C15	M97	C1	−5.684	13.145	1.409	17.14	C
ATOM	4790	C23	M97	C1	−5.215	14.43	1.015	15.54	C
ATOM	4791	C22	M97	C1	−5.141	14.811	−0.321	12.44	C
ATOM	4792	C21	M97	C1	−5.545	13.904	−1.323	14.75	C
ATOM	4793	C20	M97	C1	−6.025	12.648	−0.947	16.78	C
ATOM	4794	C19	M97	C1	−6.1	12.29	0.385	17.2	C
ATOM	4795	N3	M97	C1	−6.631	10.999	0.557	13.75	N
ATOM	4796	C3	M97	C1	−6.844	10.562	−0.666	13.83	C
ATOM	4797	C2	M97	C1	−6.514	11.51	−1.566	17.04	C
ATOM	4798	C6	M97	C1	−6.692	11.372	−3.093	13.93	C
ATOM	4799	C8	M97	C1	−5.475	11.814	−3.914	12.39	C
ATOM	4800	O2	M97	C1	−4.314	11.482	−3.73	11.64	O
ATOM	4801	N2	M97	C1	−5.811	12.562	−4.949	13.09	N
ATOM	4802	C7	M97	C1	−7.135	12.751	−4.996	13.15	C
ATOM	4803	O1	M97	C1	−7.643	13.406	−5.899	12.05	O
ATOM	4804	C1	M97	C1	−7.819	12.181	−3.728	14.16	C
ATOM	4805	C4	M97	C1	−9.155	11.566	−3.893	16.46	C
ATOM	4806	C10	M97	C1	−10.106	11.501	−2.902	16.63	C
ATOM	4807	C11	M97	C1	−10.181	11.877	−1.578	21.54	C
ATOM	4808	C12	M97	C1	−11.335	11.655	−0.794	16.81	C
ATOM	4809	C13	M97	C1	−12.39	11.019	−1.396	15.57	C
ATOM	4810	C14	M97	C1	−12.336	10.641	−2.722	16.22	C
ATOM	4811	C9	M97	C1	−11.197	10.875	−3.485	17.96	C
ATOM	4812	N1	M97	C1	−10.896	10.615	−4.784	18.43	N
ATOM	4813	C5	M97	C1	−9.655	11.061	−5.036	19.08	C
ATOM	4814	C18	M97	D1	−27.796	−19.375	−23.523	24.48	C
ATOM	4815	C17	M97	D1	−27.404	−18.301	−24.565	25.28	C
ATOM	4816	C16	M97	D1	−28.222	−17.006	−24.512	22.55	C
ATOM	4817	C15	M97	D1	−28.24	−16.516	−23.076	22.61	C
ATOM	4818	C23	M97	D1	−28.488	−15.163	−22.754	23.09	C
ATOM	4819	C22	M97	D1	−28.498	−14.791	−21.391	24.77	C
ATOM	4820	C21	M97	D1	−28.295	−15.729	−20.363	22.55	C
ATOM	4821	C20	M97	D1	−28.099	−17.062	−20.721	19.7	C
ATOM	4822	C19	M97	D1	−28.082	−17.41	−22.029	19.61	C
ATOM	4823	N3	M97	D1	−27.855	−18.769	−22.162	22.53	N
ATOM	4824	C3	M97	D1	−27.736	−19.275	−20.961	22.1	C
ATOM	4825	C2	M97	D1	−27.884	−18.269	−20.099	21.74	C
ATOM	4826	C6	M97	D1	−27.783	−18.535	−18.611	22.97	C
ATOM	4827	C8	M97	D1	−28.6	−17.631	−17.729	21.97	C
ATOM	4828	O2	M97	D1	−29.818	−17.491	−17.8	24.31	O
ATOM	4829	N2	M97	D1	−27.842	−17.074	−16.78	24.76	N
ATOM	4830	C7	M97	D1	−26.556	−17.369	−16.9	22.86	C
ATOM	4831	O1	M97	D1	−25.701	−16.934	−16.141	24.63	O
ATOM	4832	C1	M97	D1	−26.415	−18.195	−18.118	26.09	C
ATOM	4833	C4	M97	D1	−25.204	−18.618	−18.914	28.08	C
ATOM	4834	C10	M97	D1	−24.147	−19.415	−18.721	27.23	C
ATOM	4835	C11	M97	D1	−23.744	−20.094	−17.651	29.15	C
ATOM	4836	C12	M97	D1	−22.572	−20.813	−17.843	30.82	C
ATOM	4837	C13	M97	D1	−21.838	−20.791	−19.03	29.97	C
ATOM	4838	C14	M97	D1	−22.247	−20.076	−20.127	28.69	C
ATOM	4839	C9	M97	D1	−23.408	−19.39	−19.928	30.21	C
ATOM	4840	N1	M97	D1	−24.007	−18.618	−20.831	32.6	N
ATOM	4841	C5	M97	D1	−25.078	−18.18	−20.181	33.7	C
ATOM	4842	O	HOH	F1	−29.32	−45.647	−32.002	16.53	O
ATOM	4843	O	HOH	F5	6.241	−1.313	7.848	9.44	O
ATOM	4844	O	HOH	F6	9.31	−0.294	−12.45	10.96	O
ATOM	4845	O	HOH	F8	−0.518	−17.255	−13.443	12.19	O
ATOM	4846	O	HOH	F11	−41.781	−18.635	−8.479	18.73	O
ATOM	4847	O	HOH	F13	−7.464	−2.012	15.403	16.58	O
ATOM	4848	O	HOH	F15	14.609	−0.995	6.201	11.01	O
ATOM	4849	O	HOH	F16	8.312	34.844	14.609	21.07	O
ATOM	4850	O	HOH	F17	3.508	8.749	−10.788	15.51	O
ATOM	4851	O	HOH	F18	14.725	−4.454	5.272	30.25	O
ATOM	4852	O	HOH	F19	−13.905	−9.795	−22.444	15.68	O
ATOM	4853	O	HOH	F21	−42.866	−29.624	−28.883	28.13	O
ATOM	4854	O	HOH	F22	−26.774	−0.392	−19.528	11.42	O
ATOM	4855	O	HOH	F23	−11.848	−12.69	−13.164	37.75	O
ATOM	4856	O	HOH	F24	4.702	−18.668	−5.903	19.11	O
ATOM	4857	O	HOH	F25	−33.344	−32.268	−6.818	31.15	O
ATOM	4858	O	HOH	F26	−25.708	−43.353	−8.875	20.32	O
ATOM	4859	O	HOH	F29	−45.908	−39.581	−34.22	19.74	O
ATOM	4860	O	HOH	F30	−30.706	−12.15	−30.792	11.84	O
ATOM	4861	O	HOH	F31	−33.571	−22.557	−28.722	29.36	O
ATOM	4862	O	HOH	F33	−50.609	−28.235	−27.266	30.52	O
ATOM	4863	O	HOH	F34	−27.54	−39.356	−4.277	23.05	O
ATOM	4864	O	HOH	F38	−16.68	−38.138	−14.134	19.08	O
ATOM	4865	O	HOH	F41	−8.258	−22.143	−2.471	21.09	O
ATOM	4866	O	HOH	F42	−6.61	−0.884	3.132	4.31	O
ATOM	4867	O	HOH	F43	−37.744	−19.121	−10.97	9.19	O
ATOM	4868	O	HOH	F44	−13.126	9.645	−6.048	28.15	O
ATOM	4869	O	HOH	F47	−20.145	−18.005	−8.987	50.58	O
ATOM	4870	O	HOH	F48	10.711	2.092	12.972	21.72	O
ATOM	4871	O	HOH	F49	−36.132	−38.07	−31.151	6.14	O
ATOM	4872	O	HOH	F51	−35.488	−29.638	−28.278	11.04	O
ATOM	4873	O	HOH	F52	14.842	−11.981	10.718	30.87	O
ATOM	4874	O	HOH	F55	−35.382	−49.541	−30.387	26.91	O
ATOM	4875	O	HOH	F56	−11.404	−13.613	12.021	10.79	O
ATOM	4876	O	HOH	F59	0.123	−4.338	−14.067	16.42	O
ATOM	4877	O	HOH	F61	2.695	29	−0.436	14.27	O
ATOM	4878	O	HOH	F63	−17.953	−3.003	−15.671	12.17	O
ATOM	4879	O	HOH	F65	−36.272	−14.628	−12.624	12.14	O
ATOM	4880	O	HOH	F66	−37.039	−52.238	−39.018	10.87	O
ATOM	4881	O	HOH	F68	−1.256	−13.25	7.793	7.61	O
ATOM	4882	O	HOH	F69	13.93	−6.17	1.302	7.23	O
ATOM	4883	O	HOH	F74	−21.281	−26.8	−15.829	36.75	O
ATOM	4884	O	HOH	F75	−8.945	−12.697	−14.696	15.11	O
ATOM	4885	O	HOH	F78	−41.02	−15.364	−18.372	32.16	O
ATOM	4886	O	HOH	F79	2.29	10.714	−1.259	16.47	O
ATOM	4887	O	HOH	F80	−48.619	−49.393	−27.169	27.17	O
ATOM	4888	O	HOH	F81	−49.904	−38.791	−33.25	27.2	O
ATOM	4889	O	HOH	F82	−13.586	−12.029	−4.742	30.12	O
ATOM	4890	O	HOH	F84	15.912	−6.318	−3.476	24.03	O
ATOM	4891	O	HOH	F86	−8.824	20.746	3.879	17.29	O
ATOM	4892	O	HOH	F87	−0.697	−8.031	11.805	9.36	O
ATOM	4893	O	HOH	F89	−48.633	−6.161	−17.326	10.19	O
ATOM	4894	O	HOH	F90	−42.9	−45.555	−34.406	17.72	O
ATOM	4895	O	HOH	F92	11.987	−1.35	20.511	35.19	O
ATOM	4896	O	HOH	F93	−28.968	−46.992	−11.157	38.03	O
ATOM	4897	O	HOH	F94	19.165	5.56	−3.202	13.7	O
ATOM	4898	O	HOH	F95	−10.566	−5.79	−17.051	15.61	O
ATOM	4899	O	HOH	F98	−36.062	−17.343	−13.063	5.49	O
ATOM	4900	O	HOH	F99	−32.503	−51.224	−24.017	10.16	O
ATOM	4901	O	HOH	F103	9.945	0.105	2.08	15.57	O
ATOM	4902	O	HOH	F106	4.418	−17.639	13.148	16.93	O
ATOM	4903	O	HOH	F107	−45.986	−2.509	−16.086	15.03	O
ATOM	4904	O	HOH	F109	−2.683	−19.25	−13.776	28.45	O
ATOM	4905	O	HOH	F110	−4.254	−4.332	−13.533	18.93	O
ATOM	4906	O	HOH	F111	−11.1	6.177	−16.231	25.82	O
ATOM	4907	O	HOH	F113	−27.258	−24.151	−30.7	14.97	O
ATOM	4908	O	HOH	F118	−11.233	12.9	−14.378	51.8	O
ATOM	4909	O	HOH	F119	−40.043	−29.384	−26.812	7.78	O
ATOM	4910	O	HOH	F122	−27.638	−41.749	−41.794	20.81	O
ATOM	4911	O	HOH	F123	−37.295	−51.413	−19.137	29.17	O
ATOM	4912	O	HOH	F127	12.353	29.785	0.805	34.63	O
ATOM	4913	O	HOH	F132	−46.845	−25.3	−34.335	18.55	O
ATOM	4914	O	HOH	F133	−10.658	24.394	−8.533	13.92	O
ATOM	4915	O	HOH	F135	−27.625	−23.545	−23.649	23.5	O
ATOM	4916	O	HOH	F139	−7.482	−18.693	−10.139	26.8	O
ATOM	4917	O	HOH	F140	−37.308	3.619	−35.119	10.72	O
ATOM	4918	O	HOH	F141	−9.487	−12.65	7.885	27.37	O
ATOM	4919	O	HOH	F147	−14.473	−15.515	−13.357	28.23	O
ATOM	4920	O	HOH	F151	−49.253	−31.734	−19.766	12.77	O
ATOM	4921	O	HOH	F152	−33.874	−21.649	−26.009	35.39	O
ATOM	4922	O	HOH	F160	−27.074	−43.992	−33.171	26.02	O
ATOM	4923	O	HOH	F162	−1.216	−8.886	9.489	6.68	O
ATOM	4924	O	HOH	F163	−8.684	−9.212	−17.193	20.8	O
ATOM	4925	O	HOH	F164	−24.704	−27.369	−24.384	23.89	O
ATOM	4926	O	HOH	F165	10.661	−0.274	−9.633	19.75	O
ATOM	4927	O	HOH	F167	−39.405	−17	−10.792	13.52	O
ATOM	4928	O	HOH	F171	−19.563	−0.808	−17.608	25.97	O
ATOM	4929	O	HOH	F175	−1.316	6.842	6.302	30.22	O
ATOM	4930	O	HOH	F181	−23.672	−36.748	−6.006	33.39	O
ATOM	4931	O	HOH	F187	−19.483	18.366	1.47	18.85	O
ATOM	4932	O	HOH	F191	−20.833	−30.336	−23.71	17.88	O
ATOM	4933	O	HOH	F192	−23.256	−24.86	−6.405	25.34	O
ATOM	4934	O	HOH	F195	−27.943	−43.121	−7.194	24.93	O
ATOM	4935	O	HOH	F196	−9.437	−4.406	3.163	32.85	O
ATOM	4936	O	HOH	F199	−14.351	−15.223	−16.592	35.52	O
ATOM	4937	O	HOH	F201	−28.051	−20.14	−37.061	2.96	O
ATOM	4938	O	HOH	F204	13.399	−2.13	13.08	38.46	O
ATOM	4939	O	HOH	F206	−0.623	6.957	−15.231	43.14	O
ATOM	4940	O	HOH	F209	3.949	29.41	−7.507	9.37	O
ATOM	4941	O	HOH	F214	−4.368	13.84	−12.583	17.62	O
ATOM	4942	O	HOH	F216	−38.765	−22.875	−29.099	25.73	O
ATOM	4943	O	HOH	F220	4.401	7.618	−0.759	21.38	O
ATOM	4944	O	HOH	F224	−46.22	−27.713	−23.131	21.06	O
ATOM	4945	O	HOH	F232	−17.824	−0.269	1.213	29.39	O
ATOM	4946	O	HOH	F234	−41.265	−32.211	−31.685	23.51	O
ATOM	4947	O	HOH	F236	14.698	−0.179	1.827	20.96	O
ATOM	4948	O	HOH	F238	−16.579	11.275	−2.474	28.52	O
ATOM	4949	O	HOH	F239	−36.288	−36.794	−42.538	29.54	O
ATOM	4950	O	HOH	F243	−28.661	−43.161	−29.758	16.75	O
ATOM	4951	O	HOH	F244	−36.382	−42.158	−29.189	16.52	O
ATOM	4952	O	HOH	F245	−8.091	−23.484	0.658	15.9	O
ATOM	4953	O	HOH	F256	−47.173	−21.426	−26.921	17.64	O
ATOM	4954	O	HOH	F264	10.977	−5.747	10.557	16.36	O
ATOM	4955	O	HOH	F267	−36.06	1.427	−13.036	40.7	O
ATOM	4956	O	HOH	F268	11.515	6.152	5.718	11.46	O
ATOM	4957	O	HOH	F269	−6.05	34.979	5.439	23.66	O
ATOM	4958	O	HOH	F271	−8.98	−0.279	5.32	15.75	O
ATOM	4959	O	HOH	F276	2.974	11.07	9.919	22.17	O
ATOM	4960	O	HOH	F278	−14.111	−9.961	6.282	44.67	O
ATOM	4961	O	HOH	F279	−29.218	−45.75	−28.633	11.2	O
ATOM	4962	O	HOH	F282	−42.477	−21.253	−27.923	18.5	O
ATOM	4963	O	HOH	F283	−34.014	−4.394	2.354	12.22	O
ATOM	4964	O	HOH	F284	4.7	22.988	−7.778	23.08	O
ATOM	4965	O	HOH	F289	−8.366	−21.818	2.824	18.62	O
ATOM	4966	O	HOH	F290	1.692	9.464	29.595	34.19	O
ATOM	4967	O	HOH	F291	−23.192	−11.572	−29.113	40.34	O
ATOM	4968	O	HOH	F293	−48.105	−36.996	−38.885	30.74	O
ATOM	4969	O	HOH	F298	−24.065	−44.956	−29.789	44.17	O
ATOM	4970	O	HOH	F299	−17.055	−9.208	8.875	44.85	O
ATOM	4971	O	HOH	F310	−10.136	18.804	6.712	30.24	O
ATOM	4972	O	HOH	F311	−11.822	24.153	−6.297	18.14	O
ATOM	4973	O	HOH	F316	9.546	31.815	−11.844	9.61	O
ATOM	4974	O	HOH	F317	11.95	30.507	−11.564	11.26	O
ATOM	4975	O	HOH	F321	−6.987	10.303	−12.194	12.61	O
ATOM	4976	O	HOH	F323	−8.229	12.163	−14.579	17.55	O
ATOM	4977	O	HOH	F324	3.683	−0.89	5.686	18.78	O
ATOM	4978	O	HOH	F325	−11.488	−14.186	−3.45	20.66	O
ATOM	4979	O	HOH	F327	−11.968	−13.195	7.446	33.2	O
ATOM	4980	O	HOH	F328	−16.3	−13.463	9.956	22.62	O
ATOM	4981	O	HOH	F329	−9.272	−14.428	11.275	15.93	O
ATOM	4982	O	HOH	F330	−1.857	−22.856	−1.675	31.54	O
ATOM	4983	O	HOH	F331	11.811	−10.851	12.466	27.69	O
ATOM	4984	O	HOH	F332	15.961	−8.575	7.8	18.32	O
ATOM	4985	O	HOH	F333	18.235	−17.932	8.891	22.9	O
ATOM	4986	O	HOH	F340	−24.46	−9.744	−25.665	12.78	O
ATOM	4987	O	HOH	F342	−27.314	−21.134	−29.776	13.86	O
ATOM	4988	O	HOH	F348	−40.626	−30.693	−29.559	28.67	O
ATOM	4989	O	HOH	F351	−9.41	−15.753	7.013	14	O
ATOM	4990	O	HOH	F352	−32.049	−50.283	−33.663	35.95	O
ATOM	4991	O	HOH	F356	−18.866	−15.309	−30.177	24.26	O
ATOM	4992	O	HOH	F358	−33.287	−55.033	−37.052	9.53	O
ATOM	4993	O	HOH	F359	4.652	−3.504	10.226	33.1	O
ATOM	4994	O	HOH	F360	−31.099	−32.445	−33.508	5.43	O
ATOM	4995	O	HOH	F361	5.952	9.627	−8.466	18.68	O
ATOM	4996	O	HOH	F362	12.851	−5.168	−0.578	11.64	O
ATOM	4997	O	HOH	F363	−31.321	−33.548	−8.199	25.88	O
ATOM	4998	O	HOH	F365	−14.509	−15.416	−24.15	28.59	O
ATOM	4999	O	HOH	F368	−12.027	4.182	−4.641	5.68	O
ATOM	5000	O	HOH	F372	2.882	−3.106	−13.774	28.16	O
ATOM	5001	O	HOH	F373	−38.023	−25.397	−32.152	17.02	O
ATOM	5002	O	HOH	F374	11.155	−20.718	−4.4	29.01	O
ATOM	5003	O	HOH	F376	−10.556	7.527	−1.55	18.42	O
ATOM	5004	O	HOH	F377	−48.85	−18.397	−12.457	12.98	O
ATOM	5005	O	HOH	F380	−36.569	−37.246	−33.524	11.2	O
ATOM	5006	O	HOH	F381	−24.863	−41.265	−28.065	25.79	O
ATOM	5007	O	HOH	F383	−45.552	−0.183	−14.246	21.66	O
ATOM	5008	O	HOH	F384	4.701	−21.598	−7.352	26.64	O
ATOM	5009	O	HOH	F386	−0.6	−0.52	6.816	31.53	O
ATOM	5010	O	HOH	F387	−10.111	−2.953	5.26	17.96	O
ATOM	5011	O	HOH	F388	−25.049	−17.468	−7.969	32.9	O
ATOM	5012	O	HOH	F389	−26.332	−11.606	−6.498	36.6	O
ATOM	5013	O	HOH	F391	14.913	−6.481	8.487	36.2	O
ATOM	5014	O	HOH	F394	16.259	−15.826	−6.447	37.58	O
ATOM	5015	O	HOH	F395	−9.203	4.244	6.795	17.76	O
ATOM	5016	O	HOH	F396	−40.086	0.372	−8.964	21.08	O
ATOM	5017	O	HOH	F398	16.994	−6.858	0.059	42.45	O
ATOM	5018	O	HOH	F402	2.118	−1.406	8.674	16.11	O
ATOM	5019	O	HOH	F405	0.837	9.273	11.254	24.81	O
ATOM	5020	O	HOH	F407	3.045	12.282	−8.946	33.67	O
ATOM	5021	O	HOH	F410	−51.076	−26.098	−29.893	35.22	O
ATOM	5022	O	HOH	F413	5.628	−20.263	13.119	19.98	O
ATOM	5023	O	HOH	F414	−3.942	17.588	8.986	20.79	O
ATOM	5024	O	HOH	F415	−4.646	12.122	15.494	35.45	O
ATOM	5025	O	HOH	F420	−21.567	−21.045	−15.42	45.94	O
ATOM	5026	O	HOH	F421	−33.27	−1.351	−28.007	16.96	O
ATOM	5027	O	HOH	F422	−33.732	−14.336	−37.208	18.79	O
ATOM	5028	O	HOH	F423	−24.498	−22.642	−29.114	26.48	O
ATOM	5029	O	HOH	F427	−42.526	−46.274	−14.79	18.27	O
ATOM	5030	O	HOH	F430	−14.75	−31.131	−19.055	48.87	O
ATOM	5031	O	HOH	F431	−34.878	6.53	−28.368	19.91	O
ATOM	5032	O	HOH	F432	10.549	29.362	−2.166	24.44	O
ATOM	5033	O	HOH	F433	8.3	29.965	−3.709	42.01	O
ATOM	5034	O	HOH	F434	4.93	35.082	7.767	27.24	O
ATOM	5035	O	HOH	F435	7.01	38.01	9.004	21.31	O
ATOM	5036	O	HOH	F436	18.755	27.791	9.77	46.05	O
ATOM	5037	O	HOH	F438	0.35	28.842	15.624	13.72	O
ATOM	5038	O	HOH	F439	6.557	22.735	17.683	31.05	O
ATOM	5039	O	HOH	F440	3.297	0.092	−13.573	29.27	O
ATOM	5040	O	HOH	F441	−7.94	23.432	−18.434	28.66	O
ATOM	5041	O	HOH	F442	1.802	29.841	−11.164	42.98	O
ATOM	5042	O	HOH	F443	−50.163	−32.075	−16.975	13.52	O
ATOM	5043	O	HOH	F444	−50.324	−33.207	−22.394	34.24	O
ATOM	5044	O	HOH	F445	−30.405	−27.894	−41.835	20.26	O
ATOM	5045	O	HOH	F446	−42.528	−50.128	−39.155	34.7	O
ATOM	5046	O	HOH	F447	−6.122	−20.519	10.241	31.88	O
ATOM	5047	O	HOH	F448	−9.471	−17.911	15.198	29.11	O
ATOM	5048	O	HOH	F449	−10.256	8.058	1.039	22.58	O
ATOM	5049	O	HOH	F450	−10.084	8.041	6.965	35.26	O
ATOM	5050	O	HOH	F451	−8.258	10.019	15.224	14.39	O
ATOM	5051	O	HOH	F452	−3.132	9.777	17.396	43.71	O
ATOM	5052	O	HOH	F453	−7.844	6.196	15.354	25.77	O
ATOM	5053	O	HOH	F454	−33.488	−47.929	−40.055	17.2	O
ATOM	5054	O	HOH	F455	−32.976	−45.657	−40.842	24.75	O
ATOM	5055	O	HOH	F456	−15.149	9.534	2.929	44.29	O
ATOM	5056	O	HOH	F457	−16.433	16.612	−6.304	32	O
ATOM	5057	O	HOH	F458	−38.154	−3.576	−2.259	34.13	O
ATOM	5058	O	HOH	F459	−33.967	0.453	−7.339	31.91	O

TABLE 1B

(SEQ ID NO: 2)

ATOM	1	CB	LEU	1046	−19.713	−2.925	−36.938	37.65	C
ATOM	2	CG	LEU	1046	−19.834	−3.388	−35.494	38.45	C
ATOM	3	CD1	LEU	1046	−20.915	−2.586	−34.807	37.79	C
ATOM	4	CD2	LEU	1046	−20.107	−4.883	−35.426	38.03	C
ATOM	5	C	LEU	1046	−22.28	−3.028	−37.251	37.24	C
ATOM	6	O	LEU	1046	−22.669	−1.886	−37.029	36.06	O
ATOM	7	N	LEU	1046	−20.8	−2.523	−39.117	37.83	N
ATOM	8	CA	LEU	1046	−20.858	−3.287	−37.783	38.05	C
ATOM	9	N	LEU	1047	−22.803	−4.188	−36.833	37.34	N
ATOM	10	CA	LEU	1047	−24.322	−4.334	−36.88	37.41	C
ATOM	11	CB	LEU	1047	−24.559	−5.846	−36.963	38.63	C
ATOM	12	CG	LEU	1047	−24.045	−6.619	−38.197	39.63	C
ATOM	13	CD1	LEU	1047	−23.493	−7.978	−37.765	40.91	C
ATOM	14	CD2	LEU	1047	−25.172	−6.793	−39.21	40.19	C
ATOM	15	C	LEU	1047	−25.1	−3.582	−35.917	36.45	C
ATOM	16	O	LEU	1047	−25.898	−2.729	−36.286	36.58	O
ATOM	17	N	GLN	1048	−24.943	−4.046	−34.699	36.14	N
ATOM	18	CA	GLN	1048	−25.308	−3.208	−33.552	37.2	C
ATOM	19	CB	GLN	1048	−24.1	−3.359	−32.547	38.59	C
ATOM	20	CG	GLN	1048	−22.726	−3.016	−33.094	41.49	C
ATOM	21	CD	GLN	1048	−21.59	−3.712	−32.361	43.83	C
ATOM	22	OE1	GLN	1048	−21.408	−3.52	−31.158	44.72	O
ATOM	23	NE2	GLN	1048	−20.825	−4.534	−33.079	42.9	N
ATOM	24	C	GLN	1048	−25.331	−1.753	−33.995	35.99	C
ATOM	25	O	GLN	1048	−26.367	−1.101	−33.978	35.9	O
ATOM	26	N	ASN	1049	−24.192	−1.292	−34.49	34.21	N
ATOM	27	CA	ASN	1049	−24.188	0.042	−34.802	33.13	C
ATOM	28	CB	ASN	1049	−22.763	0.474	−35.102	34.55	C
ATOM	29	CG	ASN	1049	−22.03	0.787	−33.852	36.88	C
ATOM	30	OD1	ASN	1049	−22.593	1.274	−32.899	38.35	O
ATOM	31	ND2	ASN	1049	−20.756	0.562	−33.862	36.72	N
ATOM	32	C	ASN	1049	−25.042	0.484	−35.87	31.5	C
ATOM	33	O	ASN	1049	−24.714	1.503	−36.268	33.07	O
ATOM	34	N	THR	1050	−26.135	−0.177	−36.286	29.28	N
ATOM	35	CA	THR	1050	−27.071	0.242	−37.372	27.57	C
ATOM	36	CB	THR	1050	−26.772	−0.569	−38.656	27.93	C
ATOM	37	OG1	THR	1050	−26.853	−1.982	−38.404	28.31	O
ATOM	38	CG2	THR	1050	−25.354	−0.265	−39.069	28.62	C
ATOM	39	C	THR	1050	−28.501	−0.015	−36.874	26.39	C
ATOM	40	O	THR	1050	−29.511	0.174	−37.56	26.33	O
ATOM	41	N	VAL	1051	−28.568	−0.357	−35.614	23.92	N
ATOM	42	CA	VAL	1051	−29.836	−0.634	−35.034	22.71	C
ATOM	43	CB	VAL	1051	−29.705	−1.748	−34.014	22.99	C
ATOM	44	CG1	VAL	1051	−31.041	−2.037	−33.406	21.99	C
ATOM	45	CG2	VAL	1051	−29.082	−2.987	−34.659	23.78	C
ATOM	46	C	VAL	1051	−30.375	0.589	−34.295	22.22	C
ATOM	47	O	VAL	1051	−29.95	0.831	−33.199	20.21	O
ATOM	48	N	HIS	1052	−31.251	1.366	−34.82	22.87	N
ATOM	49	CA	HIS	1052	−31.674	2.419	−33.928	24	C
ATOM	50	CB	HIS	1052	−31.576	3.704	−34.653	24.15	C
ATOM	51	CG	HIS	1052	−32.273	4.827	−33.985	23.62	C
ATOM	52	CD2	HIS	1052	−33.461	5.416	−34.247	24.61	C
ATOM	53	ND1	HIS	1052	−31.722	5.51	−32.926	25.74	N
ATOM	54	CE1	HIS	1052	−32.534	6.488	−32.571	25.69	C
ATOM	55	NE2	HIS	1052	−33.596	6.453	−33.358	27.01	N
ATOM	56	C	HIS	1052	−33.129	2.083	−33.65	24.08	C
ATOM	57	O	HIS	1052	−33.725	1.402	−34.453	25.06	O
ATOM	58	N	ILE	1053	−33.727	2.592	−32.609	25.32	N
ATOM	59	CA	ILE	1053	−35.131	2.237	−32.376	26.95	C
ATOM	60	CB	ILE	1053	−35.181	1.212	−31.221	27.35	C
ATOM	61	CG2	ILE	1053	−36.585	1.044	−30.766	26.5	C
ATOM	62	CG1	ILE	1053	−34.506	−0.12	−31.596	27.84	C
ATOM	63	CD	ILE	1053	−32.991	−0.116	−31.455	30.41	C
ATOM	64	C	ILE	1053	−35.828	3.54	−31.879	27.08	C
ATOM	65	O	ILE	1053	−35.243	4.138	−31.014	27.08	O
ATOM	66	N	ASP	1054	−36.982	3.996	−32.351	27.49	N
ATOM	67	CA	ASP	1054	−37.546	5.236	−31.77	27.84	C
ATOM	68	CB	ASP	1054	−38.199	6.114	−32.815	28.33	C
ATOM	69	CG	ASP	1054	−38.818	7.383	−32.249	28.99	C
ATOM	70	OD1	ASP	1054	−38.773	7.627	−31.021	28.77	O
ATOM	71	OD2	ASP	1054	−39.366	8.145	−33.064	30.36	O
ATOM	72	C	ASP	1054	−38.537	4.749	−30.768	27.75	C
ATOM	73	O	ASP	1054	−39.568	4.12	−31.051	28.21	O
ATOM	74	N	LEU	1055	−38.158	4.976	−29.561	28.32	N
ATOM	75	CA	LEU	1055	−38.975	4.494	−28.544	29.2	C
ATOM	76	CB	LEU	1055	−38.127	4.545	−27.289	28.05	C
ATOM	77	CG	LEU	1055	−36.86	3.674	−27.342	27.28	C
ATOM	78	CD1	LEU	1055	−36.032	3.941	−26.098	27.69	C
ATOM	79	CD2	LEU	1055	−37.238	2.199	−27.412	26.67	C
ATOM	80	C	LEU	1055	−40.331	5.239	−28.441	30.11	C
ATOM	81	O	LEU	1055	−41.3	4.617	−28.07	30.04	O
ATOM	82	N	SER	1056	−40.451	6.507	−28.822	30.85	N
ATOM	83	CA	SER	1056	−41.728	7.269	−28.615	33.07	C
ATOM	84	CB	SER	1056	−41.442	8.729	−28.747	32.67	C
ATOM	85	OG	SER	1056	−41.007	8.96	−30.076	31.6	O
ATOM	86	C	SER	1056	−42.712	6.925	−29.718	34.59	C
ATOM	87	O	SER	1056	−43.94	7.153	−29.689	35.04	O
ATOM	88	N	ALA	1057	−42.081	6.42	−30.703	36.25	N
ATOM	89	CA	ALA	1057	−42.822	6.002	−31.859	38.14	C
ATOM	90	CB	ALA	1057	−41.819	5.716	−32.996	36.82	C
ATOM	91	C	ALA	1057	−43.573	4.697	−31.555	39.49	C
ATOM	92	O	ALA	1057	−44.274	4.161	−32.415	40.68	O
ATOM	93	N	ILE	1058	−43.475	4.255	−30.311	40.19	N
ATOM	94	CA	ILE	1058	−43.995	2.962	−29.948	41.59	C
ATOM	95	CB	ILE	1058	−42.872	2.192	−29.127	42.24	C
ATOM	96	CG2	ILE	1058	−42.904	2.642	−27.671	45.17	C
ATOM	97	CG1	ILE	1058	−43.068	0.676	−29.213	43.34	C
ATOM	98	CD	ILE	1058	−42.673	0.062	−30.552	43.01	C
ATOM	99	C	ILE	1058	−45.257	2.918	−29.14	41.13	C
ATOM	100	O	ILE	1058	−45.292	3.407	−28.015	41.55	O
ATOM	101	N	ASP	1059	−46.315	2.389	−29.753	41.15	N
ATOM	102	CA	ASP	1059	−47.605	2.129	−29.055	41.81	C
ATOM	103	CB	ASP	1059	−48.138	0.801	−29.462	42.5	C
ATOM	104	CG	ASP	1059	−49.4	0.451	−28.71	42.86	C
ATOM	105	OD1	ASP	1059	−49.464	0.728	−27.494	43.52	O
ATOM	106	OD2	ASP	1059	−50.325	−0.113	−29.323	44.01	O
ATOM	107	C	ASP	1059	−47.288	2.221	−27.554	41.59	C
ATOM	108	O	ASP	1059	−46.381	1.613	−27.024	42.14	O
ATOM	109	N	PRO	1060	−48.13	2.869	−26.869	41.04	N
ATOM	110	CD	PRO	1060	−48.701	3.943	−27.675	41.33	C
ATOM	111	CA	PRO	1060	−48.061	3.174	−25.457	41.53	C
ATOM	112	CB	PRO	1060	−48.349	4.654	−25.458	40.32	C
ATOM	113	CG	PRO	1060	−49.253	4.76	−26.709	40.85	C
ATOM	114	C	PRO	1060	−48.658	2.397	−24.392	41.35	C
ATOM	115	O	PRO	1060	−48.591	2.565	−23.203	42.29	O
ATOM	116	N	GLU	1061	−49.145	1.297	−24.822	41.69	N
ATOM	117	CA	GLU	1061	−49.723	0.813	−23.678	41.96	C
ATOM	118	CB	GLU	1061	−51.163	0.879	−23.965	43.79	C
ATOM	119	CG	GLU	1061	−51.39	0.487	−25.385	47.3	C
ATOM	120	CD	GLU	1061	−52.836	0.513	−25.748	49.83	C
ATOM	121	OE1	GLU	1061	−53.643	0.923	−24.889	50.97	O
ATOM	122	OE2	GLU	1061	−53.172	0.124	−26.887	51.87	O
ATOM	123	C	GLU	1061	−49.023	−0.456	−23.755	40.72	C
ATOM	124	O	GLU	1061	−48.908	−1.181	−22.797	40	O
ATOM	125	N	LEU	1062	−48.49	−0.721	−24.936	39.26	N
ATOM	126	CA	LEU	1062	−47.736	−1.936	−25.047	37.05	C
ATOM	127	CB	LEU	1062	−47.144	−2.067	−26.447	36.62	C
ATOM	128	CG	LEU	1062	−46.166	−3.232	−26.606	36.37	C
ATOM	129	CD1	LEU	1062	−46.871	−4.543	−26.286	37.04	C
ATOM	130	CD2	LEU	1062	−45.613	−3.252	−28.022	35.34	C
ATOM	131	C	LEU	1062	−46.61	−1.713	−24.034	36.08	C
ATOM	132	O	LEU	1062	−46.172	−2.59	−23.284	35	O
ATOM	133	N	VAL	1063	−46.211	−0.472	−23.986	35.17	N
ATOM	134	CA	VAL	1063	−45.136	−0.06	−23.15	35.46	C
ATOM	135	CB	VAL	1063	−44.642	1.236	−23.725	35.44	C
ATOM	136	CG1	VAL	1063	−43.706	1.89	−22.788	35.6	C
ATOM	137	CG2	VAL	1063	−43.997	0.967	−25.086	35.93	C
ATOM	138	C	VAL	1063	−45.523	0.057	−21.678	35.67	C
ATOM	139	O	VAL	1063	−44.712	−0.239	−20.794	35.29	O
ATOM	140	N	GLN	1064	−46.754	0.5	−21.423	35.76	N
ATOM	141	CA	GLN	1064	−47.262	0.647	−20.053	36.63	C
ATOM	142	CB	GLN	1064	−48.699	1.158	−20.085	38.64	C
ATOM	143	CG	GLN	1064	−49.181	1.631	−18.737	44.03	C
ATOM	144	CD	GLN	1064	−50.665	1.931	−18.728	47.48	C
ATOM	145	OE1	GLN	1064	−51.319	1.924	−19.775	49.46	O
ATOM	146	NE2	GLN	1064	−51.208	2.201	−17.544	48.03	N
ATOM	147	C	GLN	1064	−47.177	−0.761	−19.454	35.07	C
ATOM	148	O	GLN	1064	−46.523	−0.982	−18.435	34.95	O
ATOM	149	N	ALA	1065	−47.864	−1.693	−20.097	32.4	N
ATOM	150	CA	ALA	1065	−47.798	−3.114	−19.773	30.99	C
ATOM	151	CB	ALA	1065	−48.238	−3.895	−21.008	29.54	C
ATOM	152	C	ALA	1065	−46.37	−3.59	−19.366	29.66	C
ATOM	153	O	ALA	1065	−46.137	−4	−18.23	31.42	O
ATOM	154	N	VAL	1066	−45.417	−3.545	−20.298	26.55	N
ATOM	155	CA	VAL	1066	−44.063	−4.031	−20.015	24.46	C
ATOM	156	CB	VAL	1066	−43.31	−4.334	−21.353	23.5	C
ATOM	157	CG1	VAL	1066	−44.296	−4.837	−22.408	23.77	C
ATOM	158	CG2	VAL	1066	−42.598	−3.102	−21.852	22.22	C
ATOM	159	C	VAL	1066	−43.16	−3.163	−19.111	23.52	C
ATOM	160	O	VAL	1066	−42.126	−3.645	−18.638	24.4	O
ATOM	161	N	GLN	1067	−43.544	−1.911	−18.848	22.41	N
ATOM	162	CA	GLN	1067	−42.703	−1.021	−18.038	21.71	C
ATOM	163	CB	GLN	1067	−43.417	0.277	−17.642	23.75	C
ATOM	164	CG	GLN	1067	−42.446	1.315	−17.06	27.36	C
ATOM	165	CD	GLN	1067	−41.496	1.888	−18.115	28.42	C
ATOM	166	OE1	GLN	1067	−40.309	2.121	−17.854	30.71	O
ATOM	167	NE2	GLN	1067	−42.022	2.126	−19.308	28.25	N
ATOM	168	C	GLN	1067	−42.169	−1.645	−16.773	20.39	C
ATOM	169	O	GLN	1067	−41.027	−1.394	−16.392	17.45	O
ATOM	170	N	HIS	1068	−42.972	−2.464	−16.108	18.61	N
ATOM	171	CA	HIS	1068	−42.458	−3.041	−14.886	17.47	C
ATOM	172	CB	HIS	1068	−43.563	−3.74	−14.101	16.08	C
ATOM	173	CG	HIS	1068	−44.015	−5.023	−14.704	16.78	C
ATOM	174	CD2	HIS	1068	−43.866	−6.3	−14.282	16.5	C
ATOM	175	ND1	HIS	1068	−44.741	−5.082	−15.874	16.21	N
ATOM	176	CE1	HIS	1068	−45.024	−6.344	−16.145	15.79	C
ATOM	177	NE2	HIS	1068	−44.504	−7.102	−15.194	17.99	N
ATOM	178	C	HIS	1068	−41.251	−3.967	−15.081	17.41	C
ATOM	179	O	HIS	1068	−40.582	−4.28	−14.101	15.49	O
ATOM	180	N	VAL	1069	−40.949	−4.402	−16.31	15.97	N
ATOM	181	CA	VAL	1069	−39.75	−5.237	−16.509	15.14	C
ATOM	182	CB	VAL	1069	−39.978	−6.463	−17.444	14.83	C
ATOM	183	CG1	VAL	1069	−40.968	−7.409	−16.839	16.23	C
ATOM	184	CG2	VAL	1069	−40.429	−6.01	−18.813	17.27	C
ATOM	185	C	VAL	1069	−38.579	−4.455	−17.106	16.95	C
ATOM	186	O	VAL	1069	−37.484	−5.005	−17.258	13.59	O
ATOM	187	N	VAL	1070	−38.802	−3.19	−17.461	17.23	N
ATOM	188	CA	VAL	1070	−37.741	−2.37	−18.048	19.93	C
ATOM	189	CB	VAL	1070	−38.294	−1.133	−18.74	20.65	C
ATOM	190	CG1	VAL	1070	−37.135	−0.251	−19.247	22.41	C
ATOM	191	CG2	VAL	1070	−39.181	−1.565	−19.885	22.99	C
ATOM	192	C	VAL	1070	−36.783	−1.934	−16.969	20.17	C
ATOM	193	O	VAL	1070	−37.19	−1.383	−15.954	19.99	O
ATOM	194	N	ILE	1071	−35.497	−2.152	−17.202	21.73	N
ATOM	195	CA	ILE	1071	−34.52	−1.843	−16.175	24.48	C
ATOM	196	CB	ILE	1071	−33.326	−2.83	−16.285	24.86	C
ATOM	197	CG2	ILE	1071	−32.302	−2.542	−15.218	25.75	C
ATOM	198	CG1	ILE	1071	−33.828	−4.283	−16.134	27.22	C
ATOM	199	CD	ILE	1071	−34.561	−4.632	−14.81	30.1	C
ATOM	200	C	ILE	1071	−34.02	−0.401	−15.981	26.09	C
ATOM	201	O	ILE	1071	−33.915	0.054	−14.842	29.19	O
ATOM	202	N	GLY	1072	−33.74	0.345	−17.04	25.89	N
ATOM	203	CA	GLY	1072	−33.245	1.696	−16.813	24.16	C
ATOM	204	C	GLY	1072	−31.743	1.564	−16.874	24.08	C
ATOM	205	O	GLY	1072	−31.158	0.805	−16.098	23.13	O
ATOM	206	N	PRO	1073	−31.075	2.312	−17.755	24.22	N
ATOM	207	CD	PRO	1073	−31.504	3.335	−18.725	23.18	C
ATOM	208	CA	PRO	1073	−29.626	2.111	−17.78	24.27	C
ATOM	209	CB	PRO	1073	−29.194	2.872	−19.033	24.61	C
ATOM	210	CG	PRO	1073	−30.194	3.967	−19.142	24.35	C
ATOM	211	C	PRO	1073	−28.769	2.398	−16.555	24.59	C
ATOM	212	O	PRO	1073	−27.782	1.708	−16.346	24.13	O
ATOM	213	N	SER	1074	−29.118	3.376	−15.734	24.35	N
ATOM	214	CA	SER	1074	−28.298	3.626	−14.555	24.76	C
ATOM	215	CB	SER	1074	−28.922	4.721	−13.681	27.55	C
ATOM	216	OG	SER	1074	−30.159	4.284	−13.126	32.15	O
ATOM	217	C	SER	1074	−28.218	2.348	−13.723	22.97	C
ATOM	218	O	SER	1074	−27.185	2.03	−13.139	24.56	O
ATOM	219	N	SER	1075	−29.324	1.613	−13.705	21.28	N
ATOM	220	CA	SER	1075	−29.494	0.399	−12.907	19.44	C
ATOM	221	CB	SER	1075	−30.977	0.062	−12.849	18.46	C
ATOM	222	OG	SER	1075	−31.684	1.089	−12.195	14.27	O
ATOM	223	C	SER	1075	−28.732	−0.873	−13.249	20.54	C
ATOM	224	O	SER	1075	−28.633	−1.795	−12.429	21.36	O
ATOM	225	N	LEU	1076	−28.183	−0.923	−14.446	20.1	N
ATOM	226	CA	LEU	1076	−27.483	−2.104	−14.875	19.87	C
ATOM	227	CB	LEU	1076	−28.224	−2.699	−16.063	19.21	C
ATOM	228	CG	LEU	1076	−27.534	−3.89	−16.707	19.12	C
ATOM	229	CD1	LEU	1076	−27.461	−5.021	−15.696	17.77	C
ATOM	230	CD2	LEU	1076	−28.302	−4.319	−17.948	19.82	C
ATOM	231	C	LEU	1076	−26.041	−1.87	−15.285	20.54	C
ATOM	232	O	LEU	1076	−25.769	−0.986	−16.091	22.3	O
ATOM	233	N	ILE	1077	−25.105	−2.632	−14.731	19.46	N
ATOM	234	CA	ILE	1077	−23.738	−2.495	−15.208	18.87	C
ATOM	235	CB	ILE	1077	−22.653	−2.504	−14.094	19.56	C
ATOM	236	CG2	ILE	1077	−21.285	−2.271	−14.737	19.59	C
ATOM	237	CG1	ILE	1077	−22.892	−1.405	−13.059	21.62	C
ATOM	238	CD	ILE	1077	−24.062	−1.664	−12.118	28.65	C
ATOM	239	C	ILE	1077	−23.51	−3.766	−16.037	17.95	C
ATOM	240	O	ILE	1077	−23.793	−4.863	−15.563	15.66	O
ATOM	241	N	VAL	1078	−23.053	−3.637	−17.28	17.31	N
ATOM	242	CA	VAL	1078	−22.745	−4.842	−18.052	17.78	C
ATOM	243	CB	VAL	1078	−23.077	−4.777	−19.553	18.44	C
ATOM	244	CG1	VAL	1078	−22.56	−6.065	−20.228	18.64	C
ATOM	245	CG2	VAL	1078	−24.569	−4.616	−19.782	17.46	C
ATOM	246	C	VAL	1078	−21.243	−4.876	−17.998	19.43	C
ATOM	247	O	VAL	1078	−20.587	−3.934	−18.433	19.77	O
ATOM	248	N	HIS	1079	−20.68	−5.943	−17.467	20.51	N
ATOM	249	CA	HIS	1079	−19.24	−6.009	−17.402	21.34	C
ATOM	250	CB	HIS	1079	−18.849	−6.917	−16.23	19.83	C
ATOM	251	CG	HIS	1079	−19.417	−6.458	−14.919	19.74	C
ATOM	252	CD2	HIS	1079	−20.228	−7.077	−14.027	19.88	C
ATOM	253	ND1	HIS	1079	−19.212	−5.185	−14.427	20.23	N
ATOM	254	CE1	HIS	1079	−19.876	−5.038	−13.293	18.18	C
ATOM	255	NE2	HIS	1079	−20.5	−6.172	−13.028	19.41	N
ATOM	256	C	HIS	1079	−18.73	−6.499	−18.768	22.35	C
ATOM	257	O	HIS	1079	−18.699	−7.702	−19.04	21.87	O
ATOM	258	N	PHE	1080	−18.366	−5.555	−19.639	23.27	N
ATOM	259	CA	PHE	1080	−17.898	−5.913	−20.977	25.46	C
ATOM	260	CB	PHE	1080	−17.882	−4.686	−21.918	27.46	C
ATOM	261	CG	PHE	1080	−19.259	−4.25	−22.39	29.48	C
ATOM	262	CD1	PHE	1080	−20.027	−5.062	−23.223	30.23	C
ATOM	263	CD2	PHE	1080	−19.798	−3.04	−21.968	30	C
ATOM	264	CE1	PHE	1080	−21.318	−4.669	−23.622	31.49	C
ATOM	265	CE2	PHE	1080	−21.078	−2.644	−22.36	30.98	C
ATOM	266	CZ	PHE	1080	−21.838	−3.459	−23.187	30.57	C
ATOM	267	C	PHE	1080	−16.536	−6.6	−20.987	26.31	C
ATOM	268	O	PHE	1080	−16.179	−7.225	−21.975	26.79	O
ATOM	269	N	ASN	1081	−15.765	−6.508	−19.907	27.81	N
ATOM	270	CA	ASN	1081	−14.479	−7.194	−19.918	29.51	C
ATOM	271	CB	ASN	1081	−13.346	−6.286	−19.398	32.42	C
ATOM	272	CG	ASN	1081	−12.313	−5.938	−20.504	36.54	C
ATOM	273	OD1	ASN	1081	−12.536	−5.047	−21.34	36.01	O
ATOM	274	ND2	ASN	1081	−11.193	−6.663	−20.514	36.11	N
ATOM	275	C	ASN	1081	−14.538	−8.517	−19.146	28.92	C
ATOM	276	O	ASN	1081	−13.544	−8.976	−18.587	29.73	O
ATOM	277	N	GLU	1082	−15.714	−9.14	−19.149	27.42	N
ATOM	278	CA	GLU	1082	−15.91	−10.408	−18.464	27.47	C
ATOM	279	CB	GLU	1082	−16.04	−10.16	−16.981	28.91	C
ATOM	280	CG	GLU	1082	−14.864	−10.669	−16.224	31.39	C
ATOM	281	CD	GLU	1082	−15.313	−11.523	−15.08	33.01	C
ATOM	282	OE1	GLU	1082	−15.894	−10.968	−14.122	30.29	O
ATOM	283	OE2	GLU	1082	−15.11	−12.751	−15.15	33.33	O
ATOM	284	C	GLU	1082	−17.11	−11.203	−18.964	26.21	C
ATOM	285	O	GLU	1082	−18.227	−11.076	−18.471	27.02	O
ATOM	286	N	VAL	1083	−16.846	−12.06	−19.93	24.63	N
ATOM	287	CA	VAL	1083	−17.86	−12.87	−20.574	23.96	C
ATOM	288	CB	VAL	1083	−17.298	−13.188	−22	23.43	C
ATOM	289	CG1	VAL	1083	−18.161	−14.146	−22.766	23.66	C
ATOM	290	CG2	VAL	1083	−17.164	−11.872	−22.762	24.22	C
ATOM	291	C	VAL	1083	−18.239	−14.119	−19.748	22.62	C
ATOM	292	O	VAL	1083	−17.357	−14.809	−19.245	22.61	O
ATOM	293	N	ILE	1084	−19.539	−14.371	−19.543	21.85	N
ATOM	294	CA	ILE	1084	−19.95	−15.584	−18.81	22.19	C
ATOM	295	CB	ILE	1084	−21.503	−15.625	−18.472	23.79	C
ATOM	296	CG2	ILE	1084	−21.863	−16.953	−17.767	24.46	C
ATOM	297	CG1	ILE	1084	−21.889	−14.48	−17.523	24.21	C
ATOM	298	CD	ILE	1084	−23.311	−14.031	−17.657	27.1	C
ATOM	299	C	ILE	1084	−19.588	−16.697	−19.82	21.17	C
ATOM	300	O	ILE	1084	−18.999	−17.715	−19.466	22	O
ATOM	301	N	GLY	1085	−19.905	−16.471	−21.091	20.77	N
ATOM	302	CA	GLY	1085	−19.577	−17.449	−22.115	21.09	C
ATOM	303	C	GLY	1085	−20.052	−17.055	−23.5	22.33	C
ATOM	304	O	GLY	1085	−20.901	−16.179	−23.636	21.38	O
ATOM	305	N	ARG	1086	−19.501	−17.678	−24.536	24.79	N
ATOM	306	CA	ARG	1086	−19.944	−17.371	−25.886	27.33	C
ATOM	307	CB	ARG	1086	−19.034	−16.315	−26.53	30.23	C
ATOM	308	CG	ARG	1086	−17.68	−16.806	−26.973	34.24	C
ATOM	309	CD	ARG	1086	−16.572	−15.889	−26.484	36.27	C
ATOM	310	NE	ARG	1086	−16.649	−14.513	−26.972	38.68	N
ATOM	311	CZ	ARG	1086	−15.93	−13.53	−26.443	40.82	C
ATOM	312	NH1	ARG	1086	−15.116	−13.806	−25.431	42.74	N
ATOM	313	NH2	ARG	1086	−16.009	−12.29	−26.908	40.02	N
ATOM	314	C	ARG	1086	−20.039	−18.618	−26.755	26.1	C
ATOM	315	O	ARG	1086	−19.714	−19.722	−26.323	26.61	O
ATOM	316	N	GLY	1087	−20.526	−18.421	−27.97	25.65	N
ATOM	317	CA	GLY	1087	−20.693	−19.502	−28.918	24.38	C
ATOM	318	C	GLY	1087	−21.688	−19	−29.939	24.55	C
ATOM	319	O	GLY	1087	−21.875	−17.796	−30.112	23.97	O
ATOM	320	N	HIS	1088	−22.325	−19.946	−30.604	25.2	N
ATOM	321	CA	HIS	1088	−23.333	−19.7	−31.616	25.57	C
ATOM	322	CB	HIS	1088	−23.894	−21.035	−32.012	28.7	C
ATOM	323	CG	HIS	1088	−22.846	−21.938	−32.566	32.77	C
ATOM	324	CD2	HIS	1088	−22.251	−21.968	−33.785	32.79	C
ATOM	325	ND1	HIS	1088	−22.396	−23.074	−31.911	34.14	N
ATOM	326	CE1	HIS	1088	−21.605	−23.783	−32.719	35.12	C
ATOM	327	NE2	HIS	1088	−21.517	−23.138	−33.868	34.26	N
ATOM	328	C	HIS	1088	−24.476	−18.786	−31.172	25.12	C
ATOM	329	O	HIS	1088	−25.102	−18.116	−31.997	24.17	O
ATOM	330	N	PHE	1089	−24.776	−18.797	−29.875	23.19	N
ATOM	331	CA	PHE	1089	−25.859	−17.976	−29.332	22.94	C
ATOM	332	CB	PHE	1089	−26.286	−18.457	−27.929	22.43	C
ATOM	333	CG	PHE	1089	−25.143	−18.641	−26.966	22.92	C
ATOM	334	CD1	PHE	1089	−24.626	−19.908	−26.724	22.34	C
ATOM	335	CD2	PHE	1089	−24.553	−17.545	−26.334	24.58	C
ATOM	336	CE1	PHE	1089	−23.54	−20.084	−25.877	23.16	C
ATOM	337	CE2	PHE	1089	−23.462	−17.715	−25.482	22.08	C
ATOM	338	CZ	PHE	1089	−22.955	−18.985	−25.257	21.68	C
ATOM	339	C	PHE	1089	−25.351	−16.561	−29.248	22.27	C
ATOM	340	O	PHE	1089	−26.116	−15.601	−29.243	20.96	O
ATOM	341	N	GLY	1090	−24.035	−16.452	−29.167	23.56	N
ATOM	342	CA	GLY	1090	−23.423	−15.151	−29.11	23.31	C
ATOM	343	C	GLY	1090	−22.48	−14.936	−27.958	23.5	C
ATOM	344	O	GLY	1090	−21.532	−15.694	−27.727	24.61	O
ATOM	345	N	CYS	1091	−22.778	−13.877	−27.225	21.88	N
ATOM	346	CA	CYS	1091	−21.968	−13.472	−26.116	21.85	C
ATOM	347	CB	CYS	1091	−21.026	−12.375	−26.578	22.79	C
ATOM	348	SG	CYS	1091	−19.78	−12.017	−25.368	29.92	S
ATOM	349	C	CYS	1091	−22.807	−12.981	−24.951	21.01	C
ATOM	350	O	CYS	1091	−23.561	−12.013	−25.071	20.39	O
ATOM	351	N	VAL	1092	−22.66	−13.683	−23.83	20.12	N
ATOM	352	CA	VAL	1092	−23.357	−13.391	−22.586	17.5	C
ATOM	353	CB	VAL	1092	−23.984	−14.676	−22.018	16.22	C
ATOM	354	CG1	VAL	1092	−24.836	−14.367	−20.794	14.54	C
ATOM	355	CG2	VAL	1092	−24.828	−15.333	−23.087	15.2	C
ATOM	356	C	VAL	1092	−22.325	−12.833	−21.61	16.82	C
ATOM	357	O	VAL	1092	−21.296	−13.464	−21.335	16.7	O
ATOM	358	N	TYR	1093	−22.593	−11.633	−21.109	15.42	N
ATOM	359	CA	TYR	1093	−21.682	−10.994	−20.185	17.23	C
ATOM	360	CB	TYR	1093	−21.427	−9.531	−20.566	17.62	C
ATOM	361	CG	TYR	1093	−20.851	−9.299	−21.945	20.58	C
ATOM	362	CD1	TYR	1093	−21.686	−9.105	−23.037	21.94	C
ATOM	363	CE1	TYR	1093	−21.165	−8.829	−24.305	24.31	C
ATOM	364	CD2	TYR	1093	−19.466	−9.224	−22.147	21.64	C
ATOM	365	CE2	TYR	1093	−18.932	−8.951	−23.409	23.55	C
ATOM	366	CZ	TYR	1093	−19.79	−8.751	−24.484	25.26	C
ATOM	367	OH	TYR	1093	−19.291	−8.455	−25.738	26.62	O
ATOM	368	C	TYR	1093	−22.211	−11.008	−18.773	18.22	C
ATOM	369	O	TYR	1093	−23.396	−11.209	−18.521	19.61	O
ATOM	370	N	HIS	1094	−21.289	−10.793	−17.853	18.6	N
ATOM	371	CA	HIS	1094	−21.604	−10.698	−16.452	18.83	C
ATOM	372	CB	HIS	1094	−20.316	−10.789	−15.638	19.99	C
ATOM	373	CG	HIS	1094	−19.836	−12.185	−15.394	21.1	C
ATOM	374	CD2	HIS	1094	−18.704	−12.818	−15.783	22.5	C
ATOM	375	ND1	HIS	1094	−20.491	−13.057	−14.551	21.79	N
ATOM	376	CE1	HIS	1094	−19.777	−14.161	−14.421	21.06	C
ATOM	377	NE2	HIS	1094	−18.687	−14.04	−15.157	21.09	N
ATOM	378	C	HIS	1094	−22.177	−9.281	−16.328	18.78	C
ATOM	379	O	HIS	1094	−21.78	−8.382	−17.073	18.3	O
ATOM	380	N	GLY	1095	−23.116	−9.099	−15.41	19.1	N
ATOM	381	CA	GLY	1095	−23.7	−7.791	−15.188	19.67	C
ATOM	382	C	GLY	1095	−24.024	−7.631	−13.713	21.24	C
ATOM	383	O	GLY	1095	−24.131	−8.621	−12.986	19.08	O
ATOM	384	N	THR	1096	−24.141	−6.388	−13.259	23.02	N
ATOM	385	CA	THR	1096	−24.501	−6.095	−11.874	22.84	C
ATOM	386	CB	THR	1096	−23.404	−5.275	−11.14	23.36	C
ATOM	387	OG1	THR	1096	−22.428	−6.166	−10.589	26.41	O
ATOM	388	CG2	THR	1096	−24.01	−4.451	−10.016	24.26	C
ATOM	389	C	THR	1096	−25.793	−5.281	−11.94	21.4	C
ATOM	390	O	THR	1096	−25.842	−4.216	−12.559	20.93	O
ATOM	391	N	LEU	1097	−26.841	−5.798	−11.314	21.53	N
ATOM	392	CA	LEU	1097	−28.141	−5.141	−11.326	21.82	C
ATOM	393	CB	LEU	1097	−29.209	−6.159	−11.758	20.06	C
ATOM	394	CG	LEU	1097	−30.646	−5.76	−12.111	19.25	C
ATOM	395	CD1	LEU	1097	−30.665	−4.708	−13.216	18.42	C
ATOM	396	CD2	LEU	1097	−31.385	−7.007	−12.565	16.83	C
ATOM	397	C	LEU	1097	−28.519	−4.53	−9.981	21.19	C
ATOM	398	O	LEU	1097	−28.367	−5.164	−8.938	19.7	O
ATOM	399	N	LEU	1098	−28.996	−3.286	−10.021	23.17	N
ATOM	400	CA	LEU	1098	−29.46	−2.583	−8.822	24.41	C
ATOM	401	CB	LEU	1098	−29.613	−1.09	−9.083	26.16	C
ATOM	402	CG	LEU	1098	−28.496	−0.161	−8.629	29.18	C
ATOM	403	CD1	LEU	1098	−29.114	1.203	−8.341	28.63	C
ATOM	404	CD2	LEU	1098	−27.822	−0.709	−7.365	29.03	C
ATOM	405	C	LEU	1098	−30.837	−3.144	−8.541	24.65	C
ATOM	406	O	LEU	1098	−31.779	−2.833	−9.276	23.31	O
ATOM	407	N	ASP	1099	−30.973	−3.96	−7.497	24.68	N
ATOM	408	CA	ASP	1099	−32.283	−4.545	−7.224	26.36	C
ATOM	409	CB	ASP	1099	−32.18	−5.778	−6.306	27.06	C
ATOM	410	CG	ASP	1099	−32.004	−5.446	−4.831	29.17	C
ATOM	411	OD1	ASP	1099	−31.643	−6.4	−4.128	31.65	O
ATOM	412	OD2	ASP	1099	−32.229	−4.305	−4.365	28.08	O
ATOM	413	C	ASP	1099	−33.244	−3.518	−6.686	27.55	C
ATOM	414	O	ASP	1099	−32.875	−2.344	−6.562	26.26	O
ATOM	415	N	ASN	1100	−34.477	−3.923	−6.374	29.32	N
ATOM	416	CA	ASN	1100	−35.391	−2.909	−5.913	30.82	C
ATOM	417	CB	ASN	1100	−36.817	−3.375	−5.712	28.63	C
ATOM	418	CG	ASN	1100	−37.784	−2.203	−5.776	27.15	C
ATOM	419	OD1	ASN	1100	−37.902	−1.518	−6.802	25.47	O
ATOM	420	ND2	ASN	1100	−38.459	−1.946	−4.667	25.33	N
ATOM	421	C	ASN	1100	−34.817	−2.17	−4.731	34.06	C
ATOM	422	O	ASN	1100	−34.99	−0.959	−4.698	33.4	O
ATOM	423	N	ASP	1101	−34.244	−2.749	−3.684	36.87	N
ATOM	424	CA	ASP	1101	−33.561	−1.645	−3.071	40.16	C
ATOM	425	CB	ASP	1101	−33.957	−1.09	−1.753	42.43	C
ATOM	426	CG	ASP	1101	−33.365	0.343	−1.643	44.17	C
ATOM	427	OD1	ASP	1101	−33.676	1.142	−2.566	43.29	O
ATOM	428	OD2	ASP	1101	−32.573	0.673	−0.723	44.41	O
ATOM	429	C	ASP	1101	−32.097	−1.555	−3.027	40.36	C
ATOM	430	O	ASP	1101	−31.468	−1.272	−4.032	40.01	O
ATOM	431	N	GLY	1102	−31.538	−1.723	−1.849	40.9	N
ATOM	432	CA	GLY	1102	−30.121	−1.537	−1.771	40.87	C
ATOM	433	C	GLY	1102	−29.265	−2.35	−2.702	39.17	C
ATOM	434	O	GLY	1102	−28.437	−1.801	−3.436	38.81	O
ATOM	435	N	LYS	1103	−29.541	−3.645	−2.757	37.87	N
ATOM	436	CA	LYS	1103	−28.614	−4.503	−3.44	35.83	C
ATOM	437	CB	LYS	1103	−28.57	−5.866	−2.672	37.7	C
ATOM	438	CG	LYS	1103	−29.817	−6.811	−2.577	41.49	C
ATOM	439	CD	LYS	1103	−30.76	−6.723	−1.312	43.33	C
ATOM	440	CE	LYS	1103	−32.272	−6.806	−1.734	43.17	C
ATOM	441	NZ	LYS	1103	−33.348	−7.174	−0.746	44.65	N
ATOM	442	C	LYS	1103	−28.306	−4.733	−4.911	32.44	C
ATOM	443	O	LYS	1103	−29.144	−4.908	−5.808	32.36	O
ATOM	444	N	LYS	1104	−26.985	−4.671	−5.06	29.44	N
ATOM	445	CA	LYS	1104	−26.201	−4.881	−6.257	29.31	C
ATOM	446	CB	LYS	1104	−24.733	−4.422	−5.988	31.35	C
ATOM	447	CG	LYS	1104	−24.465	−2.898	−5.603	33.76	C
ATOM	448	CD	LYS	1104	−23.118	−2.693	−4.801	37.44	C
ATOM	449	CE	LYS	1104	−22.131	−1.588	−5.33	39.69	C
ATOM	450	NZ	LYS	1104	−22.349	−0.137	−4.967	39.76	N
ATOM	451	C	LYS	1104	−26.285	−6.422	−6.37	28.22	C
ATOM	452	O	LYS	1104	−25.698	−7.139	−5.554	26.29	O
ATOM	453	N	ILE	1105	−27.052	−6.91	−7.349	26.65	N
ATOM	454	CA	ILE	1105	−27.265	−8.348	−7.598	26.94	C
ATOM	455	CB	ILE	1105	−28.789	−8.661	−7.72	27.99	C
ATOM	456	CG2	ILE	1105	−29.026	−9.839	−8.673	30.38	C
ATOM	457	CG1	ILE	1105	−29.391	−8.883	−6.322	30.76	C
ATOM	458	CD	ILE	1105	−28.852	−10.101	−5.536	35.19	C
ATOM	459	C	ILE	1105	−26.558	−8.837	−8.877	25.68	C
ATOM	460	O	ILE	1105	−26.505	−8.118	−9.874	24.13	O
ATOM	461	N	HIS	1106	−26.034	−10.06	−8.854	23.56	N
ATOM	462	CA	HIS	1106	−25.334	−10.602	−10.023	22.94	C
ATOM	463	CB	HIS	1106	−24.409	−11.758	−9.615	24.08	C
ATOM	464	CG	HIS	1106	−23.469	−12.194	−10.699	27.15	C
ATOM	465	CD2	HIS	1106	−23.422	−11.885	−12.018	28.42	C
ATOM	466	ND1	HIS	1106	−22.378	−13.001	−10.458	27.68	N
ATOM	467	CE1	HIS	1106	−21.695	−13.161	−11.578	29.8	C
ATOM	468	NE2	HIS	1106	−22.307	−12.493	−12.54	29.95	N
ATOM	469	C	HIS	1106	−26.296	−11.099	−11.09	20.67	C
ATOM	470	O	HIS	1106	−27.245	−11.815	−10.798	21.19	O
ATOM	471	N	CYS	1107	−26.062	−10.724	−12.335	17.6	N
ATOM	472	CA	CYS	1107	−26.938	−11.208	−13.385	17.33	C
ATOM	473	CB	CYS	1107	−28.014	−10.171	−13.699	18.03	C
ATOM	474	SG	CYS	1107	−27.321	−8.564	−14.194	19.36	S
ATOM	475	C	CYS	1107	−26.13	−11.512	−14.638	17.39	C
ATOM	476	O	CYS	1107	−24.931	−11.213	−14.715	17.99	O
ATOM	477	N	ALA	1108	−26.793	−12.125	−15.608	14.48	N
ATOM	478	CA	ALA	1108	−26.172	−12.458	−16.878	15.95	C
ATOM	479	CB	ALA	1108	−26.418	−13.93	−17.204	15.75	C
ATOM	480	C	ALA	1108	−26.89	−11.56	−17.883	15.24	C
ATOM	481	O	ALA	1108	−28.107	−11.399	−17.798	12.68	O
ATOM	482	N	VAL	1109	−26.177	−10.958	−18.827	15.61	N
ATOM	483	CA	VAL	1109	−26.885	−10.087	−19.76	16.53	C
ATOM	484	CB	VAL	1109	−26.732	−8.557	−19.371	18.81	C
ATOM	485	CG1	VAL	1109	−26.215	−8.404	−17.944	20.45	C
ATOM	486	CG2	VAL	1109	−25.815	−7.839	−20.346	19.51	C
ATOM	487	C	VAL	1109	−26.504	−10.231	−21.227	17.08	C
ATOM	488	O	VAL	1109	−25.378	−10.611	−21.561	17.04	O
ATOM	489	N	LYS	1110	−27.461	−9.952	−22.107	17.38	N
ATOM	490	CA	LYS	1110	−27.158	−9.965	−23.534	17.22	C
ATOM	491	CB	LYS	1110	−26.814	−11.372	−24.044	19.64	C
ATOM	492	CG	LYS	1110	−27.959	−12.334	−24.212	18.31	C
ATOM	493	CD	LYS	1110	−28.051	−12.821	−25.655	19.3	C
ATOM	494	CE	LYS	1110	−26.738	−13.341	−26.235	20.56	C
ATOM	495	NZ	LYS	1110	−26.86	−13.284	−27.731	20.37	N
ATOM	496	C	LYS	1110	−28.156	−9.305	−24.468	15.54	C
ATOM	497	O	LYS	1110	−29.348	−9.176	−24.183	14.09	O
ATOM	498	N	SER	1111	−27.58	−8.874	−25.586	15.93	N
ATOM	499	CA	SER	1111	−28.193	−8.161	−26.691	16.27	C
ATOM	500	CB	SER	1111	−27.094	−7.361	−27.375	15.21	C
ATOM	501	OG	SER	1111	−27.529	−6.71	−28.544	18.36	O
ATOM	502	C	SER	1111	−28.889	−9.092	−27.599	15.76	C
ATOM	503	O	SER	1111	−28.454	−10.211	−27.947	12.53	O
ATOM	504	N	LEU	1112	−30.098	−8.685	−27.952	17.34	N
ATOM	505	CA	LEU	1112	−30.711	−9.683	−28.742	20.62	C
ATOM	506	CB	LEU	1112	−32.234	−9.458	−28.562	20.06	C
ATOM	507	CG	LEU	1112	−32.642	−9.744	−27.101	21.55	C
ATOM	508	CD1	LEU	1112	−33.953	−9.403	−26.868	19.7	C
ATOM	509	CD2	LEU	1112	−32.411	−11.154	−26.774	19.53	C
ATOM	510	C	LEU	1112	−30.167	−9.375	−30.102	21.91	C
ATOM	511	O	LEU	1112	−30.723	−8.688	−30.799	23.49	O
ATOM	512	N	ASN	1113	−29.063	−10.052	−30.556	22.86	N
ATOM	513	CA	ASN	1113	−28.909	−9.404	−31.85	23.45	C
ATOM	514	CB	ASN	1113	−27.43	−9.495	−32.245	23.43	C
ATOM	515	CG	ASN	1113	−26.585	−9.117	−31.09	25.58	C
ATOM	516	OD1	ASN	1113	−26.541	−8.023	−30.63	25.22	O
ATOM	517	ND2	ASN	1113	−25.914	−10.072	−30.585	22.74	N
ATOM	518	C	ASN	1113	−29.885	−9.566	−33	22.92	C
ATOM	519	O	ASN	1113	−29.831	−8.839	−33.944	23.28	O
ATOM	520	N	ARG	1114	−30.958	−10.381	−32.816	21.82	N
ATOM	521	CA	ARG	1114	−31.849	−10.5	−33.937	22.01	C
ATOM	522	CB	ARG	1114	−32.4	−11.948	−33.913	22.1	C
ATOM	523	CG	ARG	1114	−31.25	−12.857	−34.102	25.83	C
ATOM	524	CD	ARG	1114	−31.459	−14.259	−33.982	28.53	C
ATOM	525	NE	ARG	1114	−32.736	−14.557	−34.514	30.33	N
ATOM	526	CZ	ARG	1114	−33.501	−15.502	−34.01	32.37	C
ATOM	527	NH1	ARG	1114	−33.154	−16.204	−32.927	30.58	N
ATOM	528	NH2	ARG	1114	−34.661	−15.652	−34.574	33.1	N
ATOM	529	C	ARG	1114	−32.938	−9.462	−33.984	21.79	C
ATOM	530	O	ARG	1114	−33.683	−9.45	−34.91	22.34	O
ATOM	531	N	ILE	1115	−33.051	−8.545	−33.03	22.68	N
ATOM	532	CA	ILE	1115	−34.107	−7.541	−33.104	21.2	C
ATOM	533	CB	ILE	1115	−34.741	−7.354	−31.703	24.03	C
ATOM	534	CG2	ILE	1115	−35.642	−6.144	−31.668	23.21	C
ATOM	535	CG1	ILE	1115	−35.589	−8.58	−31.351	24.72	C
ATOM	536	CD	ILE	1115	−35.868	−8.729	−29.851	26.57	C
ATOM	537	C	ILE	1115	−33.318	−6.335	−33.548	21.28	C
ATOM	538	O	ILE	1115	−32.489	−5.821	−32.809	20.76	O
ATOM	539	N	THR	1116	−33.595	−5.909	−34.77	22.08	N
ATOM	540	CA	THR	1116	−32.856	−4.857	−35.452	23.07	C
ATOM	541	CB	THR	1116	−32.421	−5.438	−36.786	23.06	C
ATOM	542	OG1	THR	1116	−33.597	−5.795	−37.535	23.74	O
ATOM	543	CG2	THR	1116	−31.615	−6.729	−36.558	24.03	C
ATOM	544	C	THR	1116	−33.622	−3.572	−35.704	23.05	C
ATOM	545	O	THR	1116	−33.056	−2.585	−36.174	23.27	O
ATOM	546	N	ASP	1117	−34.92	−3.61	−35.44	22.99	N
ATOM	547	CA	ASP	1117	−35.759	−2.447	−35.643	24.43	C
ATOM	548	CB	ASP	1117	−36.122	−2.292	−37.121	26.12	C
ATOM	549	CG	ASP	1117	−37.083	−3.345	−37.6	28.5	C
ATOM	550	OD1	ASP	1117	−37.787	−3.933	−36.756	30.79	O
ATOM	551	OD2	ASP	1117	−37.151	−3.569	−38.826	30.95	O
ATOM	552	C	ASP	1117	−37.002	−2.491	−34.764	23.72	C
ATOM	553	O	ASP	1117	−37.291	−3.5	−34.122	23.98	O
ATOM	554	N	ILE	1118	−37.743	−1.388	−34.77	24.56	N
ATOM	555	CA	ILE	1118	−38.888	−1.211	−33.891	25.74	C
ATOM	556	CB	ILE	1118	−39.278	0.274	−33.878	25.32	C
ATOM	557	CG2	ILE	1118	−39.571	0.743	−35.276	26.13	C
ATOM	558	CG1	ILE	1118	−40.435	0.497	−32.915	24.98	C
ATOM	559	CD	ILE	1118	−40.733	1.964	−32.613	28.73	C
ATOM	560	C	ILE	1118	−40.092	−2.113	−34.069	25.74	C
ATOM	561	O	ILE	1118	−40.779	−2.448	−33.099	25.12	O
ATOM	562	N	GLY	1119	−40.346	−2.504	−35.307	25.89	N
ATOM	563	CA	GLY	1119	−41.422	−3.437	−35.543	25.68	C
ATOM	564	C	GLY	1119	−41.012	−4.734	−34.844	25.67	C
ATOM	565	O	GLY	1119	−41.864	−5.425	−34.288	25.14	O
ATOM	566	N	GLU	1120	−39.715	−5.066	−34.85	23.75	N
ATOM	567	CA	GLU	1120	−39.226	−6.295	−34.212	23.95	C
ATOM	568	CB	GLU	1120	−37.817	−6.627	−34.706	24.69	C
ATOM	569	CG	GLU	1120	−37.823	−7.463	−35.977	25.41	C
ATOM	570	CD	GLU	1120	−36.543	−7.319	−36.777	27.56	C
ATOM	571	OE1	GLU	1120	−35.575	−6.731	−36.247	26.97	O
ATOM	572	OE2	GLU	1120	−36.499	−7.797	−37.934	28.81	O
ATOM	573	C	GLU	1120	−39.262	−6.176	−32.692	23.53	C
ATOM	574	O	GLU	1120	−39.737	−7.076	−31.996	20.73	O
ATOM	575	N	VAL	1121	−38.759	−5.057	−32.192	22.95	N
ATOM	576	CA	VAL	1121	−38.797	−4.775	−30.769	24.45	C
ATOM	577	CB	VAL	1121	−38.396	−3.315	−30.51	24.85	C
ATOM	578	CG1	VAL	1121	−38.695	−2.929	−29.063	21.7	C
ATOM	579	CG2	VAL	1121	−36.933	−3.111	−30.857	23.7	C
ATOM	580	C	VAL	1121	−40.259	−4.934	−30.333	26.12	C
ATOM	581	O	VAL	1121	−40.567	−5.618	−29.349	26.27	O
ATOM	582	N	SER	1122	−41.16	−4.303	−31.084	26.23	N
ATOM	583	CA	SER	1122	−42.583	−4.322	−30.75	27.11	C
ATOM	584	CB	SER	1122	−43.374	−3.492	−31.766	28.38	C
ATOM	585	OG	SER	1122	−44.763	−3.526	−31.482	32.31	O
ATOM	586	C	SER	1122	−43.171	−5.722	−30.644	26.65	C
ATOM	587	O	SER	1122	−43.865	−6.045	−29.677	25.95	O
ATOM	588	N	GLN	1123	−42.893	−6.553	−31.641	26.43	N
ATOM	589	CA	GLN	1123	−43.39	−7.919	−31.636	26.5	C
ATOM	590	CB	GLN	1123	−43.046	−8.607	−32.955	29.41	C
ATOM	591	CG	GLN	1123	−43.203	−10.123	−32.919	33.88	C
ATOM	592	CD	GLN	1123	−43.393	−10.721	−34.301	36.39	C
ATOM	593	OE1	GLN	1123	−42.587	−10.498	−35.203	36.5	O
ATOM	594	NE2	GLN	1123	−44.467	−11.489	−34.472	38.02	N
ATOM	595	C	GLN	1123	−42.801	−8.714	−30.47	25.95	C
ATOM	596	O	GLN	1123	−43.454	−9.597	−29.918	24.87	O
ATOM	597	N	PHE	1124	−41.557	−8.402	−30.114	24.65	N
ATOM	598	CA	PHE	1124	−40.871	−9.079	−29.023	23.66	C
ATOM	599	CB	PHE	1124	−39.414	−8.629	−28.955	23.72	C
ATOM	600	CG	PHE	1124	−38.77	−8.86	−27.618	23.58	C
ATOM	601	CD1	PHE	1124	−38.694	−10.14	−27.076	25.18	C
ATOM	602	CD2	PHE	1124	−38.24	−7.798	−26.902	24	C
ATOM	603	CE1	PHE	1124	−38.097	−10.354	−25.834	25.88	C
ATOM	604	CE2	PHE	1124	−37.642	−8	−25.662	25.31	C
ATOM	605	CZ	PHE	1124	−37.568	−9.276	−25.128	25.33	C
ATOM	606	C	PHE	1124	−41.544	−8.749	−27.715	24.78	C
ATOM	607	O	PHE	1124	−41.873	−9.621	−26.92	26.5	O
ATOM	608	N	LEU	1125	−41.723	−7.466	−27.479	23.2	N
ATOM	609	CA	LEU	1125	−42.356	−7.073	−26.261	22.77	C
ATOM	610	CB	LEU	1125	−42.567	−5.598	−26.229	21.09	C
ATOM	611	CG	LEU	1125	−41.236	−4.899	−26.129	17.73	C
ATOM	612	CD1	LEU	1125	−41.631	−3.496	−26.146	19.09	C
ATOM	613	CD2	LEU	1125	−40.427	−5.218	−24.871	16.2	C
ATOM	614	C	LEU	1125	−43.682	−7.72	−26.132	25.71	C
ATOM	615	O	LEU	1125	−44.116	−8.03	−25.032	23.93	O
ATOM	616	N	THR	1126	−44.368	−7.944	−27.228	26.97	N
ATOM	617	CA	THR	1126	−45.639	−8.549	−26.998	30.56	C
ATOM	618	CB	THR	1126	−46.474	−8.47	−28.349	30.39	C
ATOM	619	OG1	THR	1126	−47.089	−7.172	−28.448	31.21	O
ATOM	620	CG2	THR	1126	−47.536	−9.509	−28.425	32.25	C
ATOM	621	C	THR	1126	−45.308	−9.955	−26.367	32.6	C
ATOM	622	O	THR	1126	−46.214	−10.759	−26.142	30.99	O
ATOM	623	N	GLU	1127	−44.006	−10.139	−25.994	35.71	N
ATOM	624	CA	GLU	1127	−43.324	−11.363	−25.421	37.11	C
ATOM	625	CB	GLU	1127	−42.663	−12.118	−26.553	36.36	C
ATOM	626	CG	GLU	1127	−43.597	−12.481	−27.631	39.29	C
ATOM	627	CD	GLU	1127	−44.476	−13.585	−27.184	41.29	C
ATOM	628	OE1	GLU	1127	−44.087	−14.213	−26.181	41.62	O
ATOM	629	OE2	GLU	1127	−45.523	−13.843	−27.816	43.61	O
ATOM	630	C	GLU	1127	−42.227	−11.228	−24.313	36.65	C
ATOM	631	O	GLU	1127	−41.449	−12.168	−24.042	36.3	O
ATOM	632	N	GLY	1128	−42.13	−10.02	−23.774	37.88	N
ATOM	633	CA	GLY	1128	−41.248	−9.679	−22.675	36.79	C
ATOM	634	C	GLY	1128	−42.463	−9.503	−21.803	36.28	C
ATOM	635	O	GLY	1128	−42.531	−8.689	−20.88	34.64	O
ATOM	636	N	ILE	1129	−43.485	−10.238	−22.251	36.52	N
ATOM	637	CA	ILE	1129	−44.786	−10.362	−21.617	37.06	C
ATOM	638	CB	ILE	1129	−45.997	−10.386	−22.653	35.43	C
ATOM	639	CG2	ILE	1129	−47.188	−11.204	−22.111	33.75	C
ATOM	640	CG1	ILE	1129	−46.554	−8.978	−22.897	35.19	C
ATOM	641	CD	ILE	1129	−46.993	−8.179	−21.639	36.58	C
ATOM	642	C	ILE	1129	−44.562	−11.78	−21.112	38.14	C
ATOM	643	O	ILE	1129	−43.906	−12.012	−20.096	40.02	O
ATOM	644	N	ILE	1130	−45.05	−12.697	−21.936	39.77	N
ATOM	645	CA	ILE	1130	−45.059	−14.15	−21.818	39.09	C
ATOM	646	CB	ILE	1130	−45.827	−14.638	−23.165	37.23	C
ATOM	647	CG2	ILE	1130	−46.725	−15.832	−22.942	35.01	C
ATOM	648	CG1	ILE	1130	−46.834	−13.555	−23.613	36.25	C
ATOM	649	CD	ILE	1130	−47.219	−13.572	−25.099	35.76	C
ATOM	650	C	ILE	1130	−43.655	−14.881	−21.549	41.51	C
ATOM	651	O	ILE	1130	−43.156	−15.56	−22.452	39.43	O
ATOM	652	N	MET	1131	−43.035	−14.698	−20.346	42.91	N
ATOM	653	CA	MET	1131	−41.742	−15.349	−19.835	44.95	C
ATOM	654	CB	MET	1131	−40.472	−15.204	−20.764	46.01	C
ATOM	655	CG	MET	1131	−39.274	−16.281	−20.43	45.5	C
ATOM	656	SD	MET	1131	−37.426	−16.086	−20.877	48.89	S
ATOM	657	CE	MET	1131	−36.526	−17.834	−20.399	44.9	C
ATOM	658	C	MET	1131	−41.305	−14.898	−18.397	45.24	C
ATOM	659	O	MET	1131	−40.606	−15.644	−17.7	46.07	O
ATOM	660	N	LYS	1132	−41.711	−13.684	−17.992	45.8	N
ATOM	661	CA	LYS	1132	−41.448	−13.047	−16.667	44.47	C
ATOM	662	CB	LYS	1132	−41.153	−11.536	−16.863	44.62	C
ATOM	663	CG	LYS	1132	−41.633	−10.562	−15.744	45.98	C
ATOM	664	CD	LYS	1132	−40.704	−10.607	−14.528	47.24	C
ATOM	665	CE	LYS	1132	−41.097	−9.681	−13.372	48.16	C
ATOM	666	NZ	LYS	1132	−39.906	−9.52	−12.48	50.03	N
ATOM	667	C	LYS	1132	−42.766	−13.202	−15.908	43.38	C
ATOM	668	O	LYS	1132	−42.822	−13.535	−14.706	44.16	O
ATOM	669	N	ASP	1133	−43.81	−12.924	−16.69	40.97	N
ATOM	670	CA	ASP	1133	−45.216	−12.985	−16.338	37.24	C
ATOM	671	CB	ASP	1133	−45.968	−11.948	−17.229	39.7	C
ATOM	672	CG	ASP	1133	−45.378	−10.475	−17.104	44.34	C
ATOM	673	OD1	ASP	1133	−45.471	−9.672	−18.073	46.2	O
ATOM	674	OD2	ASP	1133	−44.832	−10.103	−16.036	45.51	O
ATOM	675	C	ASP	1133	−45.599	−14.51	−16.559	32.78	C
ATOM	676	O	ASP	1133	−46.634	−14.894	−17.119	29.59	O
ATOM	677	N	PHE	1134	−44.642	−15.327	−16.103	27.86	N
ATOM	678	CA	PHE	1134	−44.601	−16.796	−16.002	22.57	C
ATOM	679	CB	PHE	1134	−43.753	−17.483	−17.107	22.44	C
ATOM	680	CG	PHE	1134	−44.565	−18.066	−18.259	19.89	C
ATOM	681	CD1	PHE	1134	−43.967	−18.296	−19.503	16.65	C
ATOM	682	CD2	PHE	1134	−45.934	−18.311	−18.126	18.05	C
ATOM	683	CE1	PHE	1134	−44.725	−18.745	−20.598	15.13	C
ATOM	684	CE2	PHE	1134	−46.697	−18.762	−19.214	16.83	C
ATOM	685	CZ	PHE	1134	−46.092	−18.973	−20.449	16.75	C
ATOM	686	C	PHE	1134	−43.795	−16.804	−14.689	19.23	C
ATOM	687	O	PHE	1134	−42.732	−16.175	−14.607	15.87	O
ATOM	688	N	SER	1135	−44.293	−17.468	−13.656	15.8	N
ATOM	689	CA	SER	1135	−43.575	−17.473	−12.397	13.93	C
ATOM	690	CB	SER	1135	−44.165	−16.454	−11.426	12.94	C
ATOM	691	OG	SER	1135	−43.254	−16.177	−10.383	15.88	O
ATOM	692	C	SER	1135	−43.654	−18.829	−11.775	12.54	C
ATOM	693	O	SER	1135	−44.695	−19.221	−11.262	11.79	O
ATOM	694	N	HIS	1136	−42.548	−19.547	−11.831	11.97	N
ATOM	695	CA	HIS	1136	−42.491	−20.859	−11.253	12.4	C
ATOM	696	CB	HIS	1136	−43.068	−21.88	−12.226	10.91	C
ATOM	697	CG	HIS	1136	−43.199	−23.24	−11.633	12.1	C
ATOM	698	CD2	HIS	1136	−44.246	−23.858	−11.036	10.8	C
ATOM	699	ND1	HIS	1136	−42.127	−24.097	−11.518	10.52	N
ATOM	700	CE1	HIS	1136	−42.506	−25.185	−10.872	11.14	C
ATOM	701	NE2	HIS	1136	−43.786	−25.065	−10.569	11.88	N
ATOM	702	C	HIS	1136	−41.034	−21.143	−10.917	13.17	C
ATOM	703	O	HIS	1136	−40.127	−20.784	−11.67	12.81	O
ATOM	704	N	PRO	1137	−40.79	−21.774	−9.763	14.54	N
ATOM	705	CD	PRO	1137	−41.762	−22.325	−8.797	13.56	C
ATOM	706	CA	PRO	1137	−39.414	−22.076	−9.36	15.38	C
ATOM	707	CB	PRO	1137	−39.597	−22.831	−8.035	13.45	C
ATOM	708	CG	PRO	1137	−40.974	−23.438	−8.155	17.2	C
ATOM	709	C	PRO	1137	−38.568	−22.842	−10.386	15.05	C
ATOM	710	O	PRO	1137	−37.334	−22.756	−10.366	14.8	O
ATOM	711	N	ASN	1138	−39.23	−23.571	−11.286	14.53	N
ATOM	712	CA	ASN	1138	−38.546	−24.338	−12.328	13.54	C
ATOM	713	CB	ASN	1138	−38.979	−25.801	−12.281	11.91	C
ATOM	714	CG	ASN	1138	−38.491	−26.491	−11.042	15.12	C
ATOM	715	OD1	ASN	1138	−39.279	−26.876	−10.183	14.55	O
ATOM	716	ND2	ASN	1138	−37.176	−26.639	−10.928	15.25	N
ATOM	717	C	ASN	1138	−38.752	−23.804	−13.736	12.76	C
ATOM	718	O	ASN	1138	−38.733	−24.573	−14.699	13.13	O
ATOM	719	N	VAL	1139	−38.967	−22.493	−13.836	14.58	N
ATOM	720	CA	VAL	1139	−39.148	−21.797	−15.115	14.5	C
ATOM	721	CB	VAL	1139	−40.634	−21.332	−15.343	16.08	C
ATOM	722	CG1	VAL	1139	−40.715	−20.404	−16.561	14.73	C
ATOM	723	CG2	VAL	1139	−41.543	−22.544	−15.556	14.08	C
ATOM	724	C	VAL	1139	−38.246	−20.56	−15.074	15.17	C
ATOM	725	O	VAL	1139	−38.351	−19.736	−14.157	13.04	O
ATOM	726	N	LEU	1140	−37.358	−20.427	−16.059	14.62	N
ATOM	727	CA	LEU	1140	−36.445	−19.281	−16.098	13.44	C
ATOM	728	CB	LEU	1140	−35.213	−19.59	−16.962	12.31	C
ATOM	729	CG	LEU	1140	−34.085	−18.546	−16.992	10.46	C
ATOM	730	CD1	LEU	1140	−33.328	−18.594	−15.684	13.12	C
ATOM	731	CD2	LEU	1140	−33.128	−18.82	−18.148	9.58	C
ATOM	732	C	LEU	1140	−37.118	−18.024	−16.634	14.11	C
ATOM	733	O	LEU	1140	−37.551	−17.962	−17.786	14.02	O
ATOM	734	N	SER	1141	−37.201	−17.012	−15.791	15.03	N
ATOM	735	CA	SER	1141	−37.794	−15.759	−16.214	17.47	C
ATOM	736	CB	SER	1141	−38.961	−15.397	−15.302	17.42	C
ATOM	737	OG	SER	1141	−39.908	−16.448	−15.288	16.21	O
ATOM	738	C	SER	1141	−36.75	−14.654	−16.178	18.33	C
ATOM	739	O	SER	1141	−35.783	−14.702	−15.405	19.08	O
ATOM	740	N	LEU	1142	−36.949	−13.664	−17.031	18.51	N
ATOM	741	CA	LEU	1142	−36.046	−12.537	−17.079	20.96	C
ATOM	742	CB	LEU	1142	−36.333	−11.641	−18.288	24.4	C
ATOM	743	CG	LEU	1142	−37.635	−11.494	−19.093	26.67	C
ATOM	744	CD1	LEU	1142	−37.157	−11.596	−20.531	28.07	C
ATOM	745	CD2	LEU	1142	−38.723	−12.554	−18.83	30.08	C
ATOM	746	C	LEU	1142	−36.199	−11.719	−15.831	20.09	C
ATOM	747	O	LEU	1142	−37.276	−11.671	−15.243	18.69	O
ATOM	748	N	LEU	1143	−35.102	−11.099	−15.418	19.75	N
ATOM	749	CA	LEU	1143	−35.129	−10.217	−14.275	18.51	C
ATOM	750	CB	LEU	1143	−33.714	−10.014	−13.7	20.09	C
ATOM	751	CG	LEU	1143	−33.069	−11.105	−12.816	20.67	C
ATOM	752	CD1	LEU	1143	−31.795	−10.548	−12.2	19.71	C
ATOM	753	CD2	LEU	1143	−34.021	−11.539	−11.693	20.92	C
ATOM	754	C	LEU	1143	−35.662	−8.929	−14.905	18.23	C
ATOM	755	O	LEU	1143	−36.354	−8.141	−14.258	18.44	O
ATOM	756	N	GLY	1144	−35.359	−8.731	−16.191	16.4	N
ATOM	757	CA	GLY	1144	−35.837	−7.543	−16.874	14.04	C
ATOM	758	C	GLY	1144	−35.224	−7.371	−18.245	15.5	C
ATOM	759	O	GLY	1144	−34.485	−8.226	−18.713	15.81	O
ATOM	760	N	ILE	1145	−35.539	−6.274	−18.911	16.87	N
ATOM	761	CA	ILE	1145	−34.972	−6.031	−20.225	18.26	C
ATOM	762	CB	ILE	1145	−35.981	−6.403	−21.409	19.17	C
ATOM	763	CG2	ILE	1145	−36.919	−7.552	−21.014	19.39	C
ATOM	764	CG1	ILE	1145	−36.829	−5.188	−21.848	21.36	C
ATOM	765	CD	ILE	1145	−37.787	−4.592	−20.8	25.83	C
ATOM	766	C	ILE	1145	−34.699	−4.549	−20.34	18.79	C
ATOM	767	O	ILE	1145	−35.295	−3.764	−19.609	19.26	O
ATOM	768	N	CYS	1146	−33.713	−4.129	−21.11	21.57	N
ATOM	769	CA	CYS	1146	−33.808	−2.713	−21.347	24.57	C
ATOM	770	CB	CYS	1146	−32.932	−1.749	−20.568	27.61	C
ATOM	771	SG	CYS	1146	−33.831	−0.088	−20.586	32.88	S
ATOM	772	C	CYS	1146	−33.743	−2.422	−22.789	23.95	C
ATOM	773	O	CYS	1146	−33.051	−3.059	−23.594	24.57	O
ATOM	774	N	LEU	1147	−34.617	−1.474	−23.069	23.64	N
ATOM	775	CA	LEU	1147	−34.914	−0.935	−24.363	23.73	C
ATOM	776	CB	LEU	1147	−36.373	−0.494	−24.408	23.23	C
ATOM	777	CG	LEU	1147	−37.678	−1.312	−24.387	24.45	C
ATOM	778	CD1	LEU	1147	−37.461	−2.649	−25.062	23.58	C
ATOM	779	CD2	LEU	1147	−38.205	−1.491	−22.981	24.44	C
ATOM	780	C	LEU	1147	−34.067	0.269	−24.673	23.59	C
ATOM	781	O	LEU	1147	−34.394	1.389	−24.275	23.87	O
ATOM	782	N	ARG	1148	−33.001	0.038	−25.412	23.12	N
ATOM	783	CA	ARG	1148	−32.106	1.095	−25.808	22.97	C
ATOM	784	CB	ARG	1148	−30.734	0.495	−25.988	23.4	C
ATOM	785	CG	ARG	1148	−30.35	−0.366	−24.817	24.2	C
ATOM	786	CD	ARG	1148	−28.914	−0.697	−24.921	21.72	C
ATOM	787	NE	ARG	1148	−28.681	−1.755	−25.884	20.32	N
ATOM	788	CZ	ARG	1148	−27.484	−2.001	−26.385	20.41	C
ATOM	789	NH1	ARG	1148	−26.471	−1.248	−25.996	19.37	N
ATOM	790	NH2	ARG	1148	−27.284	−2.999	−27.237	19.66	N
ATOM	791	C	ARG	1148	−32.534	1.748	−27.12	22.97	C
ATOM	792	O	ARG	1148	−33.294	1.182	−27.908	21.03	O
ATOM	793	N	SER	1149	−32.069	2.956	−27.361	23.25	N
ATOM	794	CA	SER	1149	−32.407	3.517	−28.637	23.55	C
ATOM	795	CB	SER	1149	−32.661	4.995	−28.55	24.41	C
ATOM	796	OG	SER	1149	−31.484	5.636	−28.145	25.43	O
ATOM	797	C	SER	1149	−31.292	3.142	−29.624	23.14	C
ATOM	798	O	SER	1149	−31.555	3.159	−30.796	23.95	O
ATOM	799	N	GLU	1150	−30.052	2.888	−29.203	23.72	N
ATOM	800	CA	GLU	1150	−29.119	2.289	−30.16	25.39	C
ATOM	801	CB	GLU	1150	−27.729	2.816	−30.061	27.71	C
ATOM	802	CG	GLU	1150	−27.793	4.064	−29.446	32.33	C
ATOM	803	CD	GLU	1150	−27.698	5.005	−30.524	35.64	C
ATOM	804	OE1	GLU	1150	−26.732	5.794	−30.561	34.51	O
ATOM	805	OE2	GLU	1150	−28.587	4.89	−31.384	37	O
ATOM	806	C	GLU	1150	−28.961	0.921	−29.518	23.45	C
ATOM	807	O	GLU	1150	−28.64	0.859	−28.325	21.36	O
ATOM	808	N	GLY	1151	−28.982	−0.078	−30.413	22.51	N
ATOM	809	CA	GLY	1151	−28.828	−1.495	−30.147	21.13	C
ATOM	810	C	GLY	1151	−30.042	−2.16	−29.833	20.26	C
ATOM	811	O	GLY	1151	−30.916	−1.448	−29.502	20.28	O
ATOM	812	N	SER	1152	−30.155	−3.445	−30.24	20.15	N
ATOM	813	CA	SER	1152	−31.201	−4.317	−29.94	19.17	C
ATOM	814	CB	SER	1152	−30.704	−5.674	−30.274	20.12	C
ATOM	815	OG	SER	1152	−29.814	−5.608	−31.375	20.17	O
ATOM	816	C	SER	1152	−31.474	−4.253	−28.464	18.39	C
ATOM	817	O	SER	1152	−30.637	−3.799	−27.66	15.67	O
ATOM	818	N	PRO	1153	−32.619	−4.743	−28.024	18.17	N
ATOM	819	CD	PRO	1153	−33.834	−4.874	−28.851	15.64	C
ATOM	820	CA	PRO	1153	−32.914	−4.755	−26.603	16.33	C
ATOM	821	CB	PRO	1153	−34.306	−5.346	−26.545	18.14	C
ATOM	822	CG	PRO	1153	−34.939	−4.917	−27.824	17.45	C
ATOM	823	C	PRO	1153	−31.918	−5.665	−25.921	17.54	C
ATOM	824	O	PRO	1153	−31.433	−6.614	−26.549	17.31	O
ATOM	825	N	LEU	1154	−31.624	−5.412	−24.651	16.29	N
ATOM	826	CA	LEU	1154	−30.743	−6.284	−23.875	16.17	C
ATOM	827	CB	LEU	1154	−29.845	−5.47	−22.952	16.61	C
ATOM	828	CG	LEU	1154	−28.429	−5.058	−23.319	16.57	C
ATOM	829	CD1	LEU	1154	−28.235	−4.914	−24.811	15.54	C
ATOM	830	CD2	LEU	1154	−28.161	−3.773	−22.572	15.34	C
ATOM	831	C	LEU	1154	−31.663	−7.095	−22.962	15.58	C
ATOM	832	O	LEU	1154	−32.679	−6.569	−22.521	15.77	O
ATOM	833	N	VAL	1155	−31.348	−8.362	−22.703	14.14	N
ATOM	834	CA	VAL	1155	−32.147	−9.128	−21.742	14.36	C
ATOM	835	CB	VAL	1155	−32.666	−10.516	−22.236	16.13	C
ATOM	836	CG1	VAL	1155	−34.096	−10.383	−22.707	17.55	C
ATOM	837	CG2	VAL	1155	−31.778	−11.09	−23.31	14.8	C
ATOM	838	C	VAL	1155	−31.24	−9.405	−20.56	13.32	C
ATOM	839	O	VAL	1155	−30.046	−9.654	−20.728	12.82	O
ATOM	840	N	VAL	1156	−31.817	−9.344	−19.366	13.23	N
ATOM	841	CA	VAL	1156	−31.095	−9.583	−18.123	13.25	C
ATOM	842	CB	VAL	1156	−31.197	−8.352	−17.18	11.59	C
ATOM	843	CG1	VAL	1156	−30.163	−8.455	−16.064	9.84	C
ATOM	844	CG2	VAL	1156	−31.001	−7.072	−17.976	10.35	C
ATOM	845	C	VAL	1156	−31.713	−10.806	−17.432	13.41	C
ATOM	846	O	VAL	1156	−32.897	−10.813	−17.102	12.45	O
ATOM	847	N	LEU	1157	−30.904	−11.839	−17.228	14.42	N
ATOM	848	CA	LEU	1157	−31.358	−13.065	−16.587	14.54	C
ATOM	849	CB	LEU	1157	−31.107	−14.235	−17.529	17.37	C
ATOM	850	CG	LEU	1157	−32.159	−14.084	−18.616	17.45	C
ATOM	851	CD1	LEU	1157	−31.523	−13.964	−19.97	15.68	C
ATOM	852	CD2	LEU	1157	−33.12	−15.235	−18.51	14.04	C
ATOM	853	C	LEU	1157	−30.666	−13.312	−15.263	15.03	C
ATOM	854	O	LEU	1157	−29.591	−12.768	−15.021	14.87	O
ATOM	855	N	PRO	1158	−31.29	−14.11	−14.369	15.01	N
ATOM	856	CD	PRO	1158	−32.657	−14.659	−14.452	14.36	C
ATOM	857	CA	PRO	1158	−30.676	−14.411	−13.067	14.63	C
ATOM	858	CB	PRO	1158	−31.664	−15.38	−12.424	12.4	C
ATOM	859	CG	PRO	1158	−32.975	−14.977	−13.006	16.67	C
ATOM	860	C	PRO	1158	−29.354	−15.117	−13.36	14.38	C
ATOM	861	O	PRO	1158	−29.27	−15.852	−14.346	14.05	O
ATOM	862	N	TYR	1159	−28.328	−14.908	−12.544	14.53	N
ATOM	863	CA	TYR	1159	−27.079	−15.618	−12.797	16.89	C
ATOM	864	CB	TYR	1159	−25.916	−15.097	−11.927	17.44	C
ATOM	865	CG	TYR	1159	−24.597	−15.847	−12.146	20.62	C
ATOM	866	CD1	TYR	1159	−24.05	−15.994	−13.426	19.72	C
ATOM	867	CE1	TYR	1159	−22.843	−16.704	−13.627	21.21	C
ATOM	868	CD2	TYR	1159	−23.906	−16.42	−11.072	20.45	C
ATOM	869	CE2	TYR	1159	−22.705	−17.124	−11.266	19.01	C
ATOM	870	CZ	TYR	1159	−22.18	−17.266	−12.539	20.38	C
ATOM	871	OH	TYR	1159	−21.009	−17.988	−12.714	18.95	O
ATOM	872	C	TYR	1159	−27.345	−17.084	−12.475	16.92	C
ATOM	873	O	TYR	1159	−27.794	−17.419	−11.377	17.08	O
ATOM	874	N	MET	1160	−27.097	−17.939	−13.463	17.77	N
ATOM	875	CA	MET	1160	−27.272	−19.382	−13.334	19.63	C
ATOM	876	CB	MET	1160	−28.094	−19.903	−14.538	20.87	C
ATOM	877	CG	MET	1160	−29.59	−19.473	−14.517	23.25	C
ATOM	878	SD	MET	1160	−30.392	−20	−12.946	26.21	S
ATOM	879	CE	MET	1160	−31.976	−19.029	−12.819	25.57	C
ATOM	880	C	MET	1160	−25.838	−19.959	−13.289	19.44	C
ATOM	881	O	MET	1160	−25.262	−20.285	−14.323	19.44	O
ATOM	882	N	LYS	1161	−25.283	−20.054	−12.07	20.74	N
ATOM	883	CA	LYS	1161	−23.897	−20.517	−11.782	21.83	C
ATOM	884	CB	LYS	1161	−23.718	−20.814	−10.255	23.08	C
ATOM	885	CG	LYS	1161	−22.277	−21.256	−9.7	26.14	C
ATOM	886	CD	LYS	1161	−22.276	−21.43	−8.113	29.21	C
ATOM	887	CE	LYS	1161	−21.135	−22.295	−7.464	30.75	C
ATOM	888	NZ	LYS	1161	−21.405	−22.621	−5.992	32.69	N
ATOM	889	C	LYS	1161	−23.378	−21.704	−12.581	21.45	C
ATOM	890	O	LYS	1161	−22.233	−21.692	−13.029	22.38	O
ATOM	891	N	HIS	1162	−24.209	−22.721	−12.768	21.1	N
ATOM	892	CA	HIS	1162	−23.77	−23.916	−13.475	21.05	C
ATOM	893	CB	HIS	1162	−24.271	−25.147	−12.729	21.67	C
ATOM	894	CG	HIS	1162	−23.95	−25.13	−11.267	23.58	C
ATOM	895	CD2	HIS	1162	−24.75	−24.981	−10.184	25.8	C
ATOM	896	ND1	HIS	1162	−22.664	−25.242	−10.782	22.88	N
ATOM	897	CE1	HIS	1162	−22.686	−25.164	−9.461	24.94	C
ATOM	898	NE2	HIS	1162	−23.94	−25.005	−9.074	27.06	N
ATOM	899	C	HIS	1162	−24.145	−24.003	−14.948	20.46	C
ATOM	900	O	HIS	1162	−23.893	−25.021	−15.601	20.52	O
ATOM	901	N	GLY	1163	−24.748	−22.944	−15.473	16.19	N
ATOM	902	CA	GLY	1163	−25.101	−22.941	−16.879	15.75	C
ATOM	903	C	GLY	1163	−26.153	−23.945	−17.287	14.03	C
ATOM	904	O	GLY	1163	−27.039	−24.295	−16.505	14.31	O
ATOM	905	N	ASP	1164	−26.054	−24.402	−18.529	13.99	N
ATOM	906	CA	ASP	1164	−27.003	−25.356	−19.055	15.09	C
ATOM	907	CB	ASP	1164	−26.891	−25.453	−20.586	17.44	C
ATOM	908	CG	ASP	1164	−25.468	−25.264	−21.092	20.23	C
ATOM	909	OD1	ASP	1164	−24.817	−24.255	−20.729	26.07	O
ATOM	910	OD2	ASP	1164	−25.007	−26.121	−21.872	21.73	O
ATOM	911	C	ASP	1164	−26.853	−26.719	−18.399	15.19	C
ATOM	912	O	ASP	1164	−25.765	−27.128	−17.969	11.3	O
ATOM	913	N	LEU	1165	−27.979	−27.399	−18.29	15.65	N
ATOM	914	CA	LEU	1165	−28.022	−28.704	−17.674	17.38	C
ATOM	915	CB	LEU	1165	−29.472	−29.172	−17.594	19.29	C
ATOM	916	CG	LEU	1165	−29.893	−30.157	−16.507	23.06	C
ATOM	917	CD1	LEU	1165	−29.794	−29.502	−15.132	24.16	C
ATOM	918	CD2	LEU	1165	−31.336	−30.597	−16.783	22.91	C
ATOM	919	C	LEU	1165	−27.191	−29.661	−18.523	18.34	C
ATOM	920	O	LEU	1165	−26.598	−30.599	−17.999	16.81	O
ATOM	921	N	ARG	1166	−27.115	−29.426	−19.828	16.61	N
ATOM	922	CA	ARG	1166	−26.328	−30.347	−20.631	20.77	C
ATOM	923	CB	ARG	1166	−26.59	−30.209	−22.129	21.19	C
ATOM	924	CG	ARG	1166	−25.748	−31.255	−22.956	29.35	C
ATOM	925	CD	ARG	1166	−24.754	−30.446	−23.364	33.96	C
ATOM	926	NE	ARG	1166	−23.929	−30.501	−24.55	41.69	N
ATOM	927	CZ	ARG	1166	−23.013	−31.595	−24.116	43.95	C
ATOM	928	NH1	ARG	1166	−22.272	−31.74	−25.146	44.72	N
ATOM	929	NH2	ARG	1166	−23.215	−32.382	−23.404	44.74	N
ATOM	930	C	ARG	1166	−24.826	−30.272	−20.398	19.99	C
ATOM	931	O	ARG	1166	−24.174	−31.312	−20.34	19.94	O
ATOM	932	N	ASN	1167	−24.262	−29.069	−20.302	20.09	N
ATOM	933	CA	ASN	1167	−22.826	−28.947	−20.049	19.35	C
ATOM	934	CB	ASN	1167	−22.35	−27.498	−20.026	21.75	C
ATOM	935	CG	ASN	1167	−22.323	−26.86	−21.38	26.57	C
ATOM	936	OD1	ASN	1167	−22.67	−25.69	−21.512	29.34	O
ATOM	937	ND2	ASN	1167	−21.89	−27.601	−22.393	26.01	N
ATOM	938	C	ASN	1167	−22.595	−29.437	−18.655	19.05	C
ATOM	939	O	ASN	1167	−21.566	−30.028	−18.345	20.21	O
ATOM	940	N	PHE	1168	−23.551	−29.154	−17.788	17	N
ATOM	941	CA	PHE	1168	−23.364	−29.544	−16.419	16.81	C
ATOM	942	CB	PHE	1168	−24.575	−29.188	−15.577	16.11	C
ATOM	943	CG	PHE	1168	−24.368	−29.47	−14.139	17.57	C
ATOM	944	CD1	PHE	1168	−23.567	−28.633	−13.361	17.68	C
ATOM	945	CD2	PHE	1168	−24.888	−30.625	−13.572	17.09	C
ATOM	946	CE1	PHE	1168	−23.286	−28.954	−12.042	16.42	C
ATOM	947	CE2	PHE	1168	−24.613	−30.953	−12.258	16.65	C
ATOM	948	CZ	PHE	1168	−23.809	−30.118	−11.49	16.79	C
ATOM	949	C	PHE	1168	−23.054	−31.024	−16.257	17.57	C
ATOM	950	O	PHE	1168	−22.004	−31.379	−15.725	17.47	O
ATOM	951	N	ILE	1169	−23.967	−31.872	−16.733	18.48	N
ATOM	952	CA	ILE	1169	−23.849	−33.323	−16.618	19.22	C
ATOM	953	CB	ILE	1169	−25.221	−33.994	−16.911	18.85	C
ATOM	954	CG2	ILE	1169	−26.323	−33.291	−16.107	20.15	C
ATOM	955	CG1	ILE	1169	−25.562	−33.883	−18.398	19.02	C
ATOM	956	CD	ILE	1169	−26.743	−34.735	−18.851	21.26	C
ATOM	957	C	ILE	1169	−22.742	−33.938	−17.49	20.6	C
ATOM	958	O	ILE	1169	−22.254	−35.022	−17.203	21.94	O
ATOM	959	N	ARG	1170	−22.346	−33.234	−18.547	24.45	N
ATOM	960	CA	ARG	1170	−21.269	−33.682	−19.438	27.69	C
ATOM	961	CB	ARG	1170	−21.419	−32.978	−20.852	28.31	C
ATOM	962	CG	ARG	1170	−22.013	−33.766	−22.12	33.76	C
ATOM	963	CD	ARG	1170	−21.062	−33.577	−23.383	38.78	C
ATOM	964	NE	ARG	1170	−21.589	−33.737	−24.767	44.17	N
ATOM	965	CZ	ARG	1170	−21.776	−34.883	−25.421	45.25	C
ATOM	966	NH1	ARG	1170	−21.509	−36.042	−24.837	45.69	N
ATOM	967	NH2	ARG	1170	−22.158	−34.868	−26.699	46.99	N
ATOM	968	C	ARG	1170	−19.801	−33.42	−18.85	28.11	C
ATOM	969	O	ARG	1170	−18.863	−33.886	−19.461	28.96	O
ATOM	970	N	ASN	1171	−19.616	−32.761	−17.676	31.77	N
ATOM	971	CA	ASN	1171	−18.278	−32.351	−17.071	35.84	C
ATOM	972	CB	ASN	1171	−18.34	−30.837	−16.751	35.9	C
ATOM	973	CG	ASN	1171	−17.124	−30.291	−15.963	36.69	C
ATOM	974	OD1	ASN	1171	−15.967	−30.5	−16.337	38.54	O
ATOM	975	ND2	ASN	1171	−17.402	−29.552	−14.892	38.57	N
ATOM	976	C	ASN	1171	−17.734	−33.05	−15.837	38.26	C
ATOM	977	O	ASN	1171	−18.335	−33.996	−15.33	37.47	O
ATOM	978	N	GLU	1172	−16.634	−32.526	−15.299	42.42	N
ATOM	979	CA	GLU	1172	−16.084	−33.21	−14.185	44.62	C
ATOM	980	CB	GLU	1172	−14.662	−33.533	−14.33	47.34	C
ATOM	981	CG	GLU	1172	−14.476	−34.899	−14.945	51.52	C
ATOM	982	CD	GLU	1172	−13	−35.209	−15.021	54.32	C
ATOM	983	OE1	GLU	1172	−12.209	−34.331	−14.607	56.07	O
ATOM	984	OE2	GLU	1172	−12.619	−36.306	−15.481	55.09	O
ATOM	985	C	GLU	1172	−16.394	−32.813	−12.868	45.4	C
ATOM	986	O	GLU	1172	−15.676	−32.606	−11.9	45.64	O
ATOM	987	N	THR	1173	−17.5	−33.46	−12.882	45.94	N
ATOM	988	CA	THR	1173	−18.303	−33.412	−11.801	45.89	C
ATOM	989	CB	THR	1173	−18.9	−31.986	−11.806	48.24	C
ATOM	990	OG1	THR	1173	−19.351	−31.627	−13.121	51.69	O
ATOM	991	CG2	THR	1173	−17.814	−30.958	−11.388	49.83	C
ATOM	992	C	THR	1173	−19.225	−34.615	−12.011	44.29	C
ATOM	993	O	THR	1173	−19.564	−34.981	−13.109	44.1	O
ATOM	994	N	HIS	1174	−19.669	−35.201	−10.93	42.7	N
ATOM	995	CA	HIS	1174	−20.433	−36.472	−10.943	41.89	C
ATOM	996	CB	HIS	1174	−19.872	−37.118	−9.842	39.55	C
ATOM	997	CG	HIS	1174	−18.497	−37.364	−10.145	37.93	C
ATOM	998	CD2	HIS	1174	−18.032	−38.092	−11.169	36.9	C
ATOM	999	ND1	HIS	1174	−17.45	−36.607	−9.675	37.27	N
ATOM	1000	CE1	HIS	1174	−16.388	−36.875	−10.408	37.46	C
ATOM	1001	NE2	HIS	1174	−16.72	−37.767	−11.321	38.87	N
ATOM	1002	C	HIS	1174	−21.626	−36.098	−10.522	43.19	C
ATOM	1003	O	HIS	1174	−22.216	−36.764	−9.624	40.83	O
ATOM	1004	N	ASN	1175	−22.132	−35.21	−11.301	45	N
ATOM	1005	CA	ASN	1175	−22.901	−34.607	−10.372	46.48	C
ATOM	1006	CB	ASN	1175	−22.07	−33.389	−10.053	48.49	C
ATOM	1007	CG	ASN	1175	−21.478	−33.586	−8.735	50.32	C
ATOM	1008	OD1	ASN	1175	−22.172	−33.645	−7.717	50.43	O
ATOM	1009	ND2	ASN	1175	−20.165	−33.807	−8.744	52.85	N
ATOM	1010	C	ASN	1175	−24.337	−34.512	−10.263	45.16	C
ATOM	1011	O	ASN	1175	−24.947	−33.607	−9.572	45.76	O
ATOM	1012	N	PRO	1176	−24.862	−35.721	−10.584	42.63	N
ATOM	1013	CD	PRO	1176	−25.399	−35.28	−11.89	42.59	C
ATOM	1014	CA	PRO	1176	−24.501	−37.027	−11.106	39.43	C
ATOM	1015	CB	PRO	1176	−23.589	−36.804	−12.308	40.33	C
ATOM	1016	CG	PRO	1176	−24.229	−35.822	−12.818	41.13	C
ATOM	1017	C	PRO	1176	−24.454	−38.352	−10.571	35.88	C
ATOM	1018	O	PRO	1176	−24.315	−39.218	−11.379	36.9	O
ATOM	1019	N	THR	1177	−24.742	−38.551	−9.294	31.21	N
ATOM	1020	CA	THR	1177	−25.219	−39.893	−8.976	27.86	C
ATOM	1021	CB	THR	1177	−25.691	−39.919	−7.539	28.3	C
ATOM	1022	OG1	THR	1177	−26.718	−38.926	−7.34	28.69	O
ATOM	1023	CG2	THR	1177	−24.519	−39.58	−6.658	29.42	C
ATOM	1024	C	THR	1177	−26.551	−39.987	−9.875	25.62	C
ATOM	1025	O	THR	1177	−27.064	−38.967	−10.392	24.15	O
ATOM	1026	N	VAL	1178	−27.117	−41.19	−10.018	23.06	N
ATOM	1027	CA	VAL	1178	−28.349	−41.394	−10.787	20	C
ATOM	1028	CB	VAL	1178	−28.65	−42.913	−10.982	21.95	C
ATOM	1029	CG1	VAL	1178	−30.109	−43.124	−11.338	22.35	C
ATOM	1030	CG2	VAL	1178	−27.774	−43.49	−12.098	21.65	C
ATOM	1031	C	VAL	1178	−29.551	−40.708	−10.115	19.06	C
ATOM	1032	O	VAL	1178	−30.457	−40.256	−10.801	14.69	O
ATOM	1033	N	LYS	1179	−29.555	−40.61	−8.784	17.59	N
ATOM	1034	CA	LYS	1179	−30.674	−39.95	−8.098	17.37	C
ATOM	1035	CB	LYS	1179	−30.595	−40.091	−6.573	15.86	C
ATOM	1036	CG	LYS	1179	−31.893	−39.607	−5.945	17.43	C
ATOM	1037	CD	LYS	1179	−31.973	−39.615	−4.431	18.96	C
ATOM	1038	CE	LYS	1179	−33.444	−39.433	−4.033	19.52	C
ATOM	1039	NZ	LYS	1179	−33.713	−39.473	−2.586	23.06	N
ATOM	1040	C	LYS	1179	−30.722	−38.466	−8.432	16.18	C
ATOM	1041	O	LYS	1179	−31.795	−37.904	−8.696	16	O
ATOM	1042	N	ASP	1180	−29.545	−37.85	−8.368	16.29	N
ATOM	1043	CA	ASP	1180	−29.319	−36.44	−8.672	16.7	C
ATOM	1044	CB	ASP	1180	−27.8	−36.166	−8.754	21.3	C
ATOM	1045	CG	ASP	1180	−27.093	−36.177	−7.382	24.33	C
ATOM	1046	OD1	ASP	1180	−25.843	−36.324	−7.358	24.63	O
ATOM	1047	OD2	ASP	1180	−27.766	−36.02	−6.34	25.45	O
ATOM	1048	C	ASP	1180	−29.941	−36.166	−10.046	16.85	C
ATOM	1049	O	ASP	1180	−30.788	−35.284	−10.204	17.45	O
ATOM	1050	N	LEU	1181	−29.495	−36.942	−11.031	14.01	N
ATOM	1051	CA	LEU	1181	−29.948	−36.844	−12.417	15.35	C
ATOM	1052	CB	LEU	1181	−29.241	−37.908	−13.252	12.86	C
ATOM	1053	CG	LEU	1181	−28.102	−37.644	−14.236	16.66	C
ATOM	1054	CD1	LEU	1181	−27.429	−36.281	−14.107	14.78	C
ATOM	1055	CD2	LEU	1181	−27.138	−38.797	−14.016	16.96	C
ATOM	1056	C	LEU	1181	−31.465	−36.989	−12.604	15.84	C
ATOM	1057	O	LEU	1181	−32.057	−36.288	−13.425	13.36	O
ATOM	1058	N	ILE	1182	−32.083	−37.924	−11.884	16.57	N
ATOM	1059	CA	ILE	1182	−33.535	−38.106	−11.971	18.12	C
ATOM	1060	CB	ILE	1182	−34.009	−39.375	−11.205	19.44	C
ATOM	1061	CG2	ILE	1182	−35.549	−39.429	−11.179	18.44	C
ATOM	1062	CG1	ILE	1182	−33.477	−40.659	−11.866	22.47	C
ATOM	1063	CD	ILE	1182	−32.11	−40.629	−12.516	26.66	C
ATOM	1064	C	ILE	1182	−34.088	−36.87	−11.276	17.03	C
ATOM	1065	O	ILE	1182	−35.165	−36.364	−11.611	15.91	O
ATOM	1066	N	GLY	1183	−33.315	−36.388	−10.307	15.99	N
ATOM	1067	CA	GLY	1183	−33.702	−35.204	−9.562	17.43	C
ATOM	1068	C	GLY	1183	−33.873	−34.015	−10.488	17.32	C
ATOM	1069	O	GLY	1183	−34.833	−33.258	−10.36	16.44	O
ATOM	1070	N	PHE	1184	−32.95	−33.843	−11.427	17.05	N
ATOM	1071	CA	PHE	1184	−33.052	−32.724	−12.357	17.09	C
ATOM	1072	CB	PHE	1184	−31.749	−32.522	−13.141	18.5	C
ATOM	1073	CG	PHE	1184	−30.522	−32.379	−12.283	19.66	C
ATOM	1074	CD1	PHE	1184	−30.502	−31.544	−11.167	20.39	C
ATOM	1075	CD2	PHE	1184	−29.367	−33.075	−12.616	22.04	C
ATOM	1076	CE1	PHE	1184	−29.335	−31.414	−10.398	22.54	C
ATOM	1077	CE2	PHE	1184	−28.208	−32.956	−11.865	23.06	C
ATOM	1078	CZ	PHE	1184	−28.186	−32.127	−10.754	23.72	C
ATOM	1079	C	PHE	1184	−34.199	−32.938	−13.338	15.91	C
ATOM	1080	O	PHE	1184	−34.91	−31.994	−13.682	15.75	O
ATOM	1081	N	GLY	1185	−34.377	−34.172	−13.794	14.93	N
ATOM	1082	CA	GLY	1185	−35.457	−34.458	−14.723	15.28	C
ATOM	1083	C	GLY	1185	−36.789	−34.122	−14.088	15.23	C
ATOM	1084	O	GLY	1185	−37.713	−33.646	−14.75	12.8	O
ATOM	1085	N	LEU	1186	−36.864	−34.366	−12.783	14.32	N
ATOM	1086	CA	LEU	1186	−38.056	−34.098	−12.006	14.34	C
ATOM	1087	CB	LEU	1186	−37.88	−34.62	−10.572	13.65	C
ATOM	1088	CG	LEU	1186	−39.029	−34.398	−9.581	16.71	C
ATOM	1089	CD1	LEU	1186	−40.35	−34.885	−10.173	12.78	C
ATOM	1090	CD2	LEU	1186	−38.722	−35.145	−8.28	14.5	C
ATOM	1091	C	LEU	1186	−38.351	−32.601	−11.996	14.32	C
ATOM	1092	O	LEU	1186	−39.479	−32.196	−12.256	14.05	O
ATOM	1093	N	GLN	1187	−37.351	−31.77	−11.71	13.6	N
ATOM	1094	CA	GLN	1187	−37.605	−30.34	−11.698	13.35	C
ATOM	1095	CB	GLN	1187	−36.387	−29.575	−11.206	14.52	C
ATOM	1096	CG	GLN	1187	−35.823	−30.07	−9.902	16.14	C
ATOM	1097	CD	GLN	1187	−34.745	−29.136	−9.4	18.91	C
ATOM	1098	OE1	GLN	1187	−35.02	−27.993	−9.054	23.4	O
ATOM	1099	NE2	GLN	1187	−33.51	−29.609	−9.375	19	N
ATOM	1100	C	GLN	1187	−38.004	−29.829	−13.081	11.58	C
ATOM	1101	O	GLN	1187	−38.696	−28.821	−13.194	13.07	O
ATOM	1102	N	VAL	1188	−37.576	−30.506	−14.138	11.09	N
ATOM	1103	CA	VAL	1188	−37.949	−30.071	−15.492	11.72	C
ATOM	1104	CB	VAL	1188	−37.075	−30.744	−16.577	9.94	C
ATOM	1105	CG1	VAL	1188	−37.652	−30.471	−17.966	11.58	C
ATOM	1106	CG2	VAL	1188	−35.659	−30.193	−16.495	9.54	C
ATOM	1107	C	VAL	1188	−39.418	−30.373	−15.781	11.54	C
ATOM	1108	O	VAL	1188	−40.106	−29.587	−16.419	12.41	O
ATOM	1109	N	ALA	1189	−39.894	−31.519	−15.304	14.27	N
ATOM	1110	CA	ALA	1189	−41.281	−31.913	−15.513	13.61	C
ATOM	1111	CB	ALA	1189	−41.481	−33.359	−15.09	13.82	C
ATOM	1112	C	ALA	1189	−42.195	−31.007	−14.706	13.97	C
ATOM	1113	O	ALA	1189	−43.352	−30.79	−15.072	16.38	O
ATOM	1114	N	LYS	1190	−41.674	−30.504	−13.593	12.74	N
ATOM	1115	CA	LYS	1190	−42.434	−29.617	−12.722	15.29	C
ATOM	1116	CB	LYS	1190	−41.708	−29.434	−11.399	14.89	C
ATOM	1117	CG	LYS	1190	−42.14	−30.477	−10.409	18.23	C
ATOM	1118	CD	LYS	1190	−41.278	−30.504	−9.175	18.47	C
ATOM	1119	CE	LYS	1190	−41.793	−31.579	−8.246	18.95	C
ATOM	1120	NZ	LYS	1190	−41.279	−31.37	−6.871	20.27	N
ATOM	1121	C	LYS	1190	−42.637	−28.279	−13.398	14.43	C
ATOM	1122	O	LYS	1190	−43.721	−27.703	−13.373	15.22	O
ATOM	1123	N	GLY	1191	−41.573	−27.782	−14.001	13.21	N
ATOM	1124	CA	GLY	1191	−41.666	−26.523	−14.706	12.63	C
ATOM	1125	C	GLY	1191	−42.579	−26.713	−15.895	12.4	C
ATOM	1126	O	GLY	1191	−43.406	−25.849	−16.174	12.86	O
ATOM	1127	N	MET	1192	−42.442	−27.85	−16.582	12.14	N
ATOM	1128	CA	MET	1192	−43.271	−28.144	−17.741	11.6	C
ATOM	1129	CB	MET	1192	−42.701	−29.326	−18.541	10.64	C
ATOM	1130	CG	MET	1192	−41.421	−29.006	−19.336	13.7	C
ATOM	1131	SD	MET	1192	−41.513	−27.621	−20.534	17.92	S
ATOM	1132	CE	MET	1192	−42.921	−28.121	−21.647	20.8	C
ATOM	1133	C	MET	1192	−44.736	−28.383	−17.363	12.32	C
ATOM	1134	O	MET	1192	−45.624	−28.038	−18.147	13.61	O
ATOM	1135	N	LYS	1193	−44.993	−28.955	−16.181	11.86	N
ATOM	1136	CA	LYS	1193	−46.373	−29.158	−15.712	12.84	C
ATOM	1137	CB	LYS	1193	−46.395	−29.822	−14.301	13.93	C
ATOM	1138	CG	LYS	1193	−47.766	−29.826	−13.567	17.85	C
ATOM	1139	CD	LYS	1193	−47.72	−30.237	−12.045	23.67	C
ATOM	1140	CE	LYS	1193	−46.391	−29.929	−11.3	26.38	C
ATOM	1141	NZ	LYS	1193	−45.901	−28.542	−10.955	30.9	N
ATOM	1142	C	LYS	1193	−46.955	−27.734	−15.649	12.03	C
ATOM	1143	O	LYS	1193	−48.068	−27.479	−16.108	12.04	O
ATOM	1144	N	TYR	1194	−46.18	−26.795	−15.112	12.64	N
ATOM	1145	CA	TYR	1194	−46.647	−25.407	−14.997	12.34	C
ATOM	1146	CB	TYR	1194	−45.668	−24.591	−14.147	11.64	C
ATOM	1147	CG	TYR	1194	−45.962	−23.1	−14.065	11.89	C
ATOM	1148	CD1	TYR	1194	−46.907	−22.58	−13.167	12.34	C
ATOM	1149	CE1	TYR	1194	−47.178	−21.199	−13.125	13.81	C
ATOM	1150	CD2	TYR	1194	−45.304	−22.208	−14.911	12.87	C
ATOM	1151	CE2	TYR	1194	−45.572	−20.84	−14.879	12.27	C
ATOM	1152	CZ	TYR	1194	−46.502	−20.34	−13.994	12.63	C
ATOM	1153	OH	TYR	1194	−46.763	−18.991	−14.015	13.8	O
ATOM	1154	C	TYR	1194	−46.863	−24.747	−16.369	14.72	C
ATOM	1155	O	TYR	1194	−47.966	−24.29	−16.668	13.67	O
ATOM	1156	N	LEU	1195	−45.829	−24.707	−17.205	14.63	N
ATOM	1157	CA	LEU	1195	−45.961	−24.114	−18.53	14.48	C
ATOM	1158	CB	LEU	1195	−44.659	−24.313	−19.327	11.22	C
ATOM	1159	CG	LEU	1195	−43.558	−23.232	−19.419	12.32	C
ATOM	1160	CD1	LEU	1195	−43.924	−22.016	−18.591	11.57	C
ATOM	1161	CD2	LEU	1195	−42.204	−23.817	−19	9.97	C
ATOM	1162	C	LEU	1195	−47.153	−24.75	−19.26	14.78	C
ATOM	1163	O	LEU	1195	−48.011	−24.048	−19.799	15.68	O
ATOM	1164	N	ALA	1196	−47.226	−26.077	−19.255	15.59	N
ATOM	1165	CA	ALA	1196	−48.323	−26.76	−19.931	17.53	C
ATOM	1166	CB	ALA	1196	−48.122	−28.286	−19.882	17.48	C
ATOM	1167	C	ALA	1196	−49.71	−26.397	−19.395	17.02	C
ATOM	1168	O	ALA	1196	−50.7	−26.616	−20.083	18.22	O
ATOM	1169	N	SER	1197	−49.799	−25.859	−18.181	18.14	N
ATOM	1170	CA	SER	1197	−51.109	−25.484	−17.646	18.76	C
ATOM	1171	CB	SER	1197	−51.115	−25.544	−16.114	19.04	C
ATOM	1172	OG	SER	1197	−50.19	−24.624	−15.551	20.46	O
ATOM	1173	C	SER	1197	−51.49	−24.081	−18.123	18.11	C
ATOM	1174	O	SER	1197	−52.665	−23.732	−18.177	20.7	O
ATOM	1175	N	LYS	1198	−50.487	−23.29	−18.48	18.69	N
ATOM	1176	CA	LYS	1198	−50.698	−21.937	−18.988	19.35	C
ATOM	1177	CB	LYS	1198	−49.478	−21.06	−18.689	20.72	C
ATOM	1178	CG	LYS	1198	−49.059	−21.106	−17.24	19.87	C
ATOM	1179	CD	LYS	1198	−50.309	−21.238	−16.407	21.44	C
ATOM	1180	CE	LYS	1198	−50.069	−21.004	−14.947	22.31	C
ATOM	1181	NZ	LYS	1198	−51.33	−20.451	−14.393	23.65	N
ATOM	1182	C	LYS	1198	−50.86	−22.094	−20.488	19.76	C
ATOM	1183	O	LYS	1198	−50.899	−21.117	−21.234	20.25	O
ATOM	1184	N	LYS	1199	−50.943	−23.356	−20.901	19.44	N
ATOM	1185	CA	LYS	1199	−51.079	−23.747	−22.302	21.24	C
ATOM	1186	CB	LYS	1199	−52.326	−23.134	−22.952	23.73	C
ATOM	1187	CG	LYS	1199	−53.683	−23.601	−22.468	27.68	C
ATOM	1188	CD	LYS	1199	−54.769	−22.601	−22.926	32.24	C
ATOM	1189	CE	LYS	1199	−55.458	−22.948	−24.274	35.47	C
ATOM	1190	NZ	LYS	1199	−54.653	−22.791	−25.529	34.96	N
ATOM	1191	C	LYS	1199	−49.88	−23.276	−23.119	21.02	C
ATOM	1192	O	LYS	1199	−50.037	−22.907	−24.277	20.05	O
ATOM	1193	N	PHE	1200	−48.687	−23.274	−22.546	18.53	N
ATOM	1194	CA	PHE	1200	−47.542	−22.814	−23.312	18.34	C
ATOM	1195	CB	PHE	1200	−46.658	−21.964	−22.404	19.51	C
ATOM	1196	CG	PHE	1200	−45.328	−21.61	−22.982	18.89	C
ATOM	1197	CD1	PHE	1200	−44.242	−22.452	−22.793	19.96	C
ATOM	1198	CD2	PHE	1200	−45.133	−20.398	−23.634	20.92	C
ATOM	1199	CE1	PHE	1200	−42.977	−22.092	−23.23	21.7	C
ATOM	1200	CE2	PHE	1200	−43.865	−20.025	−24.08	20.16	C
ATOM	1201	CZ	PHE	1200	−42.786	−20.872	−23.876	20.78	C
ATOM	1202	C	PHE	1200	−46.778	−23.969	−23.946	17.03	C
ATOM	1203	O	PHE	1200	−46.409	−24.92	−23.282	16.04	O
ATOM	1204	N	VAL	1201	−46.575	−23.887	−25.253	17.46	N
ATOM	1205	CA	VAL	1201	−45.868	−24.933	−25.977	18.28	C
ATOM	1206	CB	VAL	1201	−46.586	−25.227	−27.312	17.97	C
ATOM	1207	CG1	VAL	1201	−45.917	−26.389	−28.045	16.62	C
ATOM	1208	CG2	VAL	1201	−48.053	−25.553	−27.018	19.79	C
ATOM	1209	C	VAL	1201	−44.427	−24.474	−26.19	17.03	C
ATOM	1210	O	VAL	1201	−44.146	−23.552	−26.951	16.94	O
ATOM	1211	N	HIS	1202	−43.516	−25.127	−25.484	18.22	N
ATOM	1212	CA	HIS	1202	−42.117	−24.766	−25.55	19.44	C
ATOM	1213	CB	HIS	1202	−41.352	−25.573	−24.503	20.61	C
ATOM	1214	CG	HIS	1202	−39.987	−25.039	−24.218	23.13	C
ATOM	1215	CD2	HIS	1202	−39.507	−24.329	−23.17	22.29	C
ATOM	1216	ND1	HIS	1202	−38.938	−25.18	−25.101	25.25	N
ATOM	1217	CE1	HIS	1202	−37.87	−24.579	−24.608	23.7	C
ATOM	1218	NE2	HIS	1202	−38.189	−24.055	−23.438	24.81	N
ATOM	1219	C	HIS	1202	−41.5	−24.923	−26.946	19.79	C
ATOM	1220	O	HIS	1202	−41.037	−23.946	−27.514	19.21	O
ATOM	1221	N	ARG	1203	−41.491	−26.145	−27.484	21.16	N
ATOM	1222	CA	ARG	1203	−40.951	−26.456	−28.821	20.86	C
ATOM	1223	CB	ARG	1203	−41.293	−25.36	−29.847	22.37	C
ATOM	1224	CG	ARG	1203	−42.756	−24.976	−29.983	27.08	C
ATOM	1225	CD	ARG	1203	−42.888	−23.623	−30.689	30.84	C
ATOM	1226	NE	ARG	1203	−42.868	−23.673	−32.153	36.66	N
ATOM	1227	CZ	ARG	1203	−43.94	−23.521	−32.934	38.15	C
ATOM	1228	NH1	ARG	1203	−45.139	−23.308	−32.399	37.56	N
ATOM	1229	NH2	ARG	1203	−43.811	−23.569	−34.258	38.08	N
ATOM	1230	C	ARG	1203	−39.442	−26.705	−28.93	20.03	C
ATOM	1231	O	ARG	1203	−38.962	−27.062	−30.001	20.19	O
ATOM	1232	N	ASP	1204	−38.68	−26.498	−27.866	18.22	N
ATOM	1233	CA	ASP	1204	−37.242	−26.727	−27.961	17.39	C
ATOM	1234	CB	ASP	1204	−36.519	−25.454	−28.397	18.69	C
ATOM	1235	CG	ASP	1204	−35.059	−25.705	−28.756	20.08	C
ATOM	1236	OD1	ASP	1204	−34.278	−24.736	−28.736	20.95	O
ATOM	1237	OD2	ASP	1204	−34.697	−26.864	−29.063	20.4	O
ATOM	1238	C	ASP	1204	−36.713	−27.183	−26.617	16.06	C
ATOM	1239	O	ASP	1204	−35.627	−26.811	−26.194	14.59	O
ATOM	1240	N	LEU	1205	−37.524	−27.984	−25.947	15.88	N
ATOM	1241	CA	LEU	1205	−37.178	−28.529	−24.656	15.06	C
ATOM	1242	CB	LEU	1205	−38.41	−29.214	−24.078	15.7	C
ATOM	1243	CG	LEU	1205	−38.336	−29.828	−22.689	16.1	C
ATOM	1244	CD1	LEU	1205	−38.054	−28.738	−21.67	17.91	C
ATOM	1245	CD2	LEU	1205	−39.655	−30.512	−22.377	18.02	C
ATOM	1246	C	LEU	1205	−36.067	−29.543	−24.93	15.1	C
ATOM	1247	O	LEU	1205	−36.226	−30.41	−25.777	13.35	O
ATOM	1248	N	ALA	1206	−34.944	−29.396	−24.234	13.57	N
ATOM	1249	CA	ALA	1206	−33.775	−30.261	−24.359	12.02	C
ATOM	1250	CB	ALA	1206	−33.038	−29.999	−25.683	12.69	C
ATOM	1251	C	ALA	1206	−32.917	−29.824	−23.184	11.59	C
ATOM	1252	O	ALA	1206	−33.116	−28.719	−22.665	11.21	O
ATOM	1253	N	ALA	1207	−31.968	−30.648	−22.754	11.55	N
ATOM	1254	CA	ALA	1207	−31.153	−30.25	−21.606	13.24	C
ATOM	1255	CB	ALA	1207	−30.255	−31.394	−21.164	12.55	C
ATOM	1256	C	ALA	1207	−30.324	−28.984	−21.838	13.57	C
ATOM	1257	O	ALA	1207	−29.973	−28.29	−20.884	12.7	O
ATOM	1258	N	ARG	1208	−30.008	−28.66	−23.087	14.61	N
ATOM	1259	CA	ARG	1208	−29.226	−27.451	−23.316	15.15	C
ATOM	1260	CB	ARG	1208	−28.74	−27.384	−24.759	15.13	C
ATOM	1261	CG	ARG	1208	−29.829	−27.618	−25.745	15.45	C
ATOM	1262	CD	ARG	1208	−29.409	−27.3	−27.17	14.22	C
ATOM	1263	NE	ARG	1208	−30.574	−27.433	−28.039	16.17	N
ATOM	1264	CZ	ARG	1208	−31.128	−28.598	−28.368	17.5	C
ATOM	1265	NH1	ARG	1208	−30.616	−29.734	−27.913	15.22	N
ATOM	1266	NH2	ARG	1208	−32.211	−28.63	−29.132	17.23	N
ATOM	1267	C	ARG	1208	−30.094	−26.238	−23.004	15.44	C
ATOM	1268	O	ARG	1208	−29.59	−25.126	−22.823	14.4	O
ATOM	1269	N	ASN	1209	−31.402	−26.452	−22.915	15.58	N
ATOM	1270	CA	ASN	1209	−32.323	−25.351	−22.64	15.77	C
ATOM	1271	CB	ASN	1209	−33.479	−25.394	−23.644	18.91	C
ATOM	1272	CG	ASN	1209	−33.06	−24.919	−25.021	18.29	C
ATOM	1273	OD1	ASN	1209	−32.54	−23.817	−25.167	22.07	O
ATOM	1274	ND2	ASN	1209	−33.282	−25.741	−26.03	20.52	N
ATOM	1275	C	ASN	1209	−32.869	−25.211	−21.218	15.85	C
ATOM	1276	O	ASN	1209	−33.85	−24.493	−20.997	14.98	O
ATOM	1277	N	CYS	1210	−32.235	−25.897	−20.265	14.98	N
ATOM	1278	CA	CYS	1210	−32.605	−25.834	−18.848	13.93	C
ATOM	1279	CB	CYS	1210	−32.902	−27.23	−18.301	14.01	C
ATOM	1280	SG	CYS	1210	−34.181	−28.128	−19.141	18.21	S
ATOM	1281	C	CYS	1210	−31.381	−25.299	−18.117	13.47	C
ATOM	1282	O	CYS	1210	−30.281	−25.796	−18.337	14.75	O
ATOM	1283	N	MET	1211	−31.542	−24.306	−17.251	11.84	N
ATOM	1284	CA	MET	1211	−30.389	−23.777	−16.526	12.37	C
ATOM	1285	CB	MET	1211	−30.373	−22.25	−16.618	12.33	C
ATOM	1286	CG	MET	1211	−30.417	−21.723	−18.04	15.48	C
ATOM	1287	SD	MET	1211	−28.921	−22.155	−18.986	16.79	S
ATOM	1288	CE	MET	1211	−29.629	−22.57	−20.593	17.49	C
ATOM	1289	C	MET	1211	−30.355	−24.221	−15.051	13.11	C
ATOM	1290	O	MET	1211	−31.405	−24.444	−14.433	12.82	O
ATOM	1291	N	LEU	1212	−29.138	−24.339	−14.515	14.5	N
ATOM	1292	CA	LEU	1212	−28.858	−24.757	−13.126	18.15	C
ATOM	1293	CB	LEU	1212	−27.783	−25.854	−13.117	18.33	C
ATOM	1294	CG	LEU	1212	−28.063	−27.342	−12.907	23.14	C
ATOM	1295	CD1	LEU	1212	−26.759	−28.114	−12.725	22.22	C
ATOM	1296	CD2	LEU	1212	−28.895	−27.512	−11.67	22.5	C
ATOM	1297	C	LEU	1212	−28.318	−23.607	−12.264	18.5	C
ATOM	1298	O	LEU	1212	−27.306	−23.003	−12.624	17.66	O
ATOM	1299	N	ASP	1213	−28.945	−23.3	−11.131	19.27	N
ATOM	1300	CA	ASP	1213	−28.396	−22.225	−10.308	21.32	C
ATOM	1301	CB	ASP	1213	−29.477	−21.318	−9.693	21.56	C
ATOM	1302	CG	ASP	1213	−30.303	−22.006	−8.609	23.87	C
ATOM	1303	OD1	ASP	1213	−29.909	−23.083	−8.098	22.69	O
ATOM	1304	OD2	ASP	1213	−31.359	−21.435	−8.26	23.31	O
ATOM	1305	C	ASP	1213	−27.537	−22.792	−9.199	22.81	C
ATOM	1306	O	ASP	1213	−27.369	−24.013	−9.088	21.8	O
ATOM	1307	N	GLU	1214	−27.015	−21.875	−8.387	23.36	N
ATOM	1308	CA	GLU	1214	−26.15	−22.172	−7.263	25.25	C
ATOM	1309	CB	GLU	1214	−25.713	−20.823	−6.591	27.38	C
ATOM	1310	CG	GLU	1214	−26.765	−19.881	−5.826	31.52	C
ATOM	1311	CD	GLU	1214	−27.635	−18.892	−6.678	36.11	C
ATOM	1312	OE1	GLU	1214	−28.537	−19.36	−7.408	37.3	O
ATOM	1313	OE2	GLU	1214	−27.447	−17.642	−6.592	38.7	O
ATOM	1314	C	GLU	1214	−26.736	−23.199	−6.26	25.42	C
ATOM	1315	O	GLU	1214	−25.992	−23.936	−5.608	25.26	O
ATOM	1316	N	LYS	1215	−28.062	−23.282	−6.172	25.13	N
ATOM	1317	CA	LYS	1215	−28.709	−24.231	−5.258	25.77	C
ATOM	1318	CB	LYS	1215	−29.843	−23.524	−4.475	28.21	C
ATOM	1319	CG	LYS	1215	−29.356	−22.414	−3.48	33.22	C
ATOM	1320	CD	LYS	1215	−30.496	−21.715	−2.665	36.61	C
ATOM	1321	CE	LYS	1215	−29.956	−20.614	−1.691	39.24	C
ATOM	1322	NZ	LYS	1215	−30.983	−19.842	−0.882	40.6	N
ATOM	1323	C	LYS	1215	−29.23	−25.491	−5.998	25.36	C
ATOM	1324	O	LYS	1215	−30.031	−26.261	−5.464	24.65	O
ATOM	1325	N	PHE	1216	−28.739	−25.682	−7.225	23.22	N
ATOM	1326	CA	PHE	1216	−29.075	−26.811	−8.091	21.85	C
ATOM	1327	CB	PHE	1216	−28.465	−28.108	−7.517	23.16	C
ATOM	1328	CG	PHE	1216	−26.958	−28.012	−7.263	24.21	C
ATOM	1329	CD1	PHE	1216	−26.463	−27.77	−5.975	26.27	C
ATOM	1330	CD2	PHE	1216	−26.043	−28.113	−8.314	23.83	C
ATOM	1331	CE1	PHE	1216	−25.081	−27.629	−5.741	24.88	C
ATOM	1332	CE2	PHE	1216	−24.659	−27.972	−8.088	25.08	C
ATOM	1333	CZ	PHE	1216	−24.183	−27.73	−6.803	25.51	C
ATOM	1334	C	PHE	1216	−30.569	−26.93	−8.396	20.58	C
ATOM	1335	O	PHE	1216	−31.144	−28.015	−8.54	17.6	O
ATOM	1336	N	THR	1217	−31.179	−25.759	−8.521	19.63	N
ATOM	1337	CA	THR	1217	−32.576	−25.635	−8.871	17.9	C
ATOM	1338	CB	THR	1217	−33.199	−24.4	−8.134	18.25	C
ATOM	1339	OG1	THR	1217	−33.309	−24.708	−6.736	22.27	O
ATOM	1340	CG2	THR	1217	−34.587	−24.057	−8.663	18.17	C
ATOM	1341	C	THR	1217	−32.473	−25.47	−10.396	16.93	C
ATOM	1342	O	THR	1217	−31.649	−24.686	−10.886	16.95	O
ATOM	1343	N	VAL	1218	−33.243	−26.282	−11.127	14.5	N
ATOM	1344	CA	VAL	1218	−33.271	−26.27	−12.593	12.8	C
ATOM	1345	CB	VAL	1218	−33.428	−27.71	−13.207	13.21	C
ATOM	1346	CG1	VAL	1218	−33.421	−27.636	−14.734	9.72	C
ATOM	1347	CG2	VAL	1218	−32.297	−28.638	−12.73	11.3	C
ATOM	1348	C	VAL	1218	−34.455	−25.437	−13.066	12.06	C
ATOM	1349	O	VAL	1218	−35.546	−25.515	−12.503	10.84	O
ATOM	1350	N	LYS	1219	−34.229	−24.646	−14.107	12.68	N
ATOM	1351	CA	LYS	1219	−35.268	−23.8	−14.659	13.73	C
ATOM	1352	CB	LYS	1219	−35.033	−22.337	−14.228	13.19	C
ATOM	1353	CG	LYS	1219	−34.861	−22.121	−12.692	17.83	C
ATOM	1354	CD	LYS	1219	−35.229	−20.688	−12.283	21.91	C
ATOM	1355	CE	LYS	1219	−35.232	−20.482	−10.768	22.55	C
ATOM	1356	NZ	LYS	1219	−33.871	−20.066	−10.367	26.09	N
ATOM	1357	C	LYS	1219	−35.258	−23.95	−16.187	13.7	C
ATOM	1358	O	LYS	1219	−34.202	−23.854	−16.83	14.06	O
ATOM	1359	N	VAL	1220	−36.437	−24.224	−16.746	12.71	N
ATOM	1360	CA	VAL	1220	−36.641	−24.392	−18.188	13.54	C
ATOM	1361	CB	VAL	1220	−38.027	−25.056	−18.466	10.73	C
ATOM	1362	CG1	VAL	1220	−38.189	−25.371	−19.946	12.56	C
ATOM	1363	CG2	VAL	1220	−38.177	−26.319	−17.619	13.35	C
ATOM	1364	C	VAL	1220	−36.617	−22.987	−18.794	13.96	C
ATOM	1365	O	VAL	1220	−37.273	−22.079	−18.28	13.77	O
ATOM	1366	N	ALA	1221	−35.866	−22.814	−19.874	15.44	N
ATOM	1367	CA	ALA	1221	−35.742	−21.521	−20.529	17.32	C
ATOM	1368	CB	ALA	1221	−34.291	−21.059	−20.472	19.47	C
ATOM	1369	C	ALA	1221	−36.193	−21.558	−21.967	18.52	C
ATOM	1370	O	ALA	1221	−36.144	−22.607	−22.622	17.22	O
ATOM	1371	N	ASP	1222	−36.655	−20.409	−22.44	19.34	N
ATOM	1372	CA	ASP	1222	−37.05	−20.259	−23.823	20.45	C
ATOM	1373	C	ASP	1222	−36.096	−19.138	−24.197	21.22	C
ATOM	1374	O	ASP	1222	−36.346	−17.986	−23.881	20.31	O
ATOM	1375	CB	ASP	1222	−38.513	−19.79	−23.946	0	C
ATOM	1376	CG	ASP	1222	−38.938	−19.5	−25.394	0	C
ATOM	1377	OD1	ASP	1222	−38.028	−19.47	−26.254	0	O
ATOM	1378	OD2	ASP	1222	−40.162	−19.394	−25.634	0	O1−
ATOM	1379	N	PHE	1223	−34.946	−19.467	−24.764	22.78	N
ATOM	1380	CA	PHE	1223	−34.068	−18.376	−25.174	24.51	C
ATOM	1381	CB	PHE	1223	−32.649	−18.78	−25.064	23.52	C
ATOM	1382	CG	PHE	1223	−32.181	−18.589	−23.73	22.43	C
ATOM	1383	CD1	PHE	1223	−32.106	−17.305	−23.205	22.25	C
ATOM	1384	CD2	PHE	1223	−31.915	−19.675	−22.943	22.04	C
ATOM	1385	CE1	PHE	1223	−31.767	−17.121	−21.898	23.44	C
ATOM	1386	CE2	PHE	1223	−31.579	−19.511	−21.655	23.35	C
ATOM	1387	CZ	PHE	1223	−31.497	−18.23	−21.115	21.72	C
ATOM	1388	C	PHE	1223	−34.508	−18.133	−26.543	26.06	C
ATOM	1389	O	PHE	1223	−35.441	−17.365	−26.738	27.77	O
ATOM	1390	N	GLY	1224	−33.816	−18.621	−27.533	25.8	N
ATOM	1391	CA	GLY	1224	−34.608	−18.551	−28.715	26.02	C
ATOM	1392	C	GLY	1224	−34.467	−17.321	−29.46	24.52	C
ATOM	1393	O	GLY	1224	−33.784	−17.447	−30.43	26.4	O
ATOM	1394	N	LEU	1225	−35.099	−16.199	−29.133	23.41	N
ATOM	1395	CA	LEU	1225	−34.742	−15.069	−29.965	22.22	C
ATOM	1396	CB	LEU	1225	−35.724	−13.898	−29.921	24.33	C
ATOM	1397	CG	LEU	1225	−35.597	−13.386	−31.376	24.95	C
ATOM	1398	CD1	LEU	1225	−36.22	−14.383	−32.359	27.59	C
ATOM	1399	CD2	LEU	1225	−36.271	−12.083	−31.549	27.1	C
ATOM	1400	C	LEU	1225	−33.399	−14.576	−29.482	21.21	C
ATOM	1401	O	LEU	1225	−32.701	−13.862	−30.192	23.15	O
ATOM	1402	N	ALA	1226	−33.014	−14.967	−28.279	18.87	N
ATOM	1403	CA	ALA	1226	−31.743	−14.53	−27.759	18.09	C
ATOM	1404	CB	ALA	1226	−31.729	−14.712	−26.281	17.96	C
ATOM	1405	C	ALA	1226	−30.563	−15.254	−28.404	19.16	C
ATOM	1406	O	ALA	1226	−29.424	−14.798	−28.296	19.43	O
ATOM	1407	N	ARG	1227	−30.825	−16.383	−29.063	19.46	N
ATOM	1408	CA	ARG	1227	−29.762	−17.127	−29.734	19.73	C
ATOM	1409	CB	ARG	1227	−30.173	−18.589	−29.955	21.4	C
ATOM	1410	CG	ARG	1227	−29.913	−19.468	−28.749	21.1	C
ATOM	1411	CD	ARG	1227	−30.775	−20.709	−28.773	24.1	C
ATOM	1412	NE	ARG	1227	−30.764	−21.366	−27.479	24.33	N
ATOM	1413	CZ	ARG	1227	−29.659	−21.795	−26.901	25.32	C
ATOM	1414	NH1	ARG	1227	−28.485	−21.653	−27.513	23.64	N
ATOM	1415	NH2	ARG	1227	−29.722	−22.259	−25.669	22.87	N
ATOM	1416	C	ARG	1227	−29.502	−16.471	−31.081	19.24	C
ATOM	1417	O	ARG	1227	−30.343	−16.548	−31.967	19.55	O
ATOM	1418	N	ASP	1228	−28.353	−15.814	−31.225	18.7	N
ATOM	1419	CA	ASP	1228	−27.993	−15.164	−32.476	20.06	C
ATOM	1420	CB	ASP	1228	−26.596	−14.543	−32.363	22.84	C
ATOM	1421	CG	ASP	1228	−26.564	−13.326	−31.44	25.1	C
ATOM	1422	OD1	ASP	1228	−27.649	−12.775	−31.148	28.18	O
ATOM	1423	OD2	ASP	1228	−25.463	−12.912	−31.015	24.23	O
ATOM	1424	C	ASP	1228	−28.032	−16.191	−33.614	21.09	C
ATOM	1425	O	ASP	1228	−28.69	−15.971	−34.635	20.36	O
ATOM	1426	N	MET	1229	−27.319	−17.303	−33.401	22.55	N
ATOM	1427	CA	MET	1229	−27.226	−18.451	−34.317	25.14	C
ATOM	1428	CB	MET	1229	−25.849	−18.58	−34.936	26.88	C
ATOM	1429	CG	MET	1229	−25.515	−17.46	−35.798	31.32	C
ATOM	1430	SD	MET	1229	−24.024	−17.65	−36.705	35.03	S
ATOM	1431	CE	MET	1229	−23.377	−16.183	−36.259	34.46	C
ATOM	1432	C	MET	1229	−27.431	−19.769	−33.598	26.07	C
ATOM	1433	O	MET	1229	−27.166	−19.877	−32.409	24.93	O
ATOM	1434	N	TYR	1230	−27.867	−20.747	−34.392	28.36	N
ATOM	1435	CA	TYR	1230	−28.082	−22.125	−33.992	31.64	C
ATOM	1436	CB	TYR	1230	−29.453	−22.541	−34.464	32.55	C
ATOM	1437	CG	TYR	1230	−30.516	−21.962	−33.652	35.13	C
ATOM	1438	CD1	TYR	1230	−30.798	−20.603	−33.714	36.14	C
ATOM	1439	CE1	TYR	1230	−31.725	−20.077	−32.932	36.69	C
ATOM	1440	CD2	TYR	1230	−31.171	−22.761	−32.768	36.34	C
ATOM	1441	CE2	TYR	1230	−32.087	−22.251	−31.994	37.04	C
ATOM	1442	CZ	TYR	1230	−32.365	−20.915	−32.096	38.54	C
ATOM	1443	OH	TYR	1230	−33.288	−20.428	−31.255	40.67	O
ATOM	1444	C	TYR	1230	−27.115	−23.13	−34.593	33.96	C
ATOM	1445	O	TYR	1230	−26.726	−22.999	−35.739	31.96	O
ATOM	1446	N	ASP	1231	−26.708	−24.121	−33.842	37.48	N
ATOM	1447	CA	ASP	1231	−25.919	−25.139	−34.375	40.93	C
ATOM	1448	CB	ASP	1231	−24.61	−25.288	−33.497	44.37	C
ATOM	1449	CG	ASP	1231	−23.925	−24.048	−33.276	48.97	C
ATOM	1450	OD1	ASP	1231	−24.038	−23.129	−34.127	52.21	O
ATOM	1451	OD2	ASP	1231	−23.288	−23.979	−32.223	52.03	O
ATOM	1452	C	ASP	1231	−26.456	−26.616	−34.314	40.83	C
ATOM	1453	O	ASP	1231	−27.297	−26.882	−33.463	42.4	O
ATOM	1454	N	LYS	1232	−26.267	−27.085	−35.575	42.17	N
ATOM	1455	CA	LYS	1232	−25.533	−28.505	−35.598	41.36	C
ATOM	1456	CB	LYS	1232	−24.062	−27.847	−35.332	43.03	C
ATOM	1457	CG	LYS	1232	−23.742	−27.489	−33.868	42.47	C
ATOM	1458	CD	LYS	1232	−22.298	−27.062	−33.676	44.85	C
ATOM	1459	CE	LYS	1232	−22.066	−26.5	−32.281	45.67	C
ATOM	1460	NZ	LYS	1232	−22.63	−27.363	−31.219	45.92	N
ATOM	1461	C	LYS	1232	−25.864	−29.353	−34.331	42.16	C
ATOM	1462	O	LYS	1232	−24.92	−29.911	−33.817	42.14	O
ATOM	1463	N	GLU	1233	−27.06	−29.753	−34.739	41.02	N
ATOM	1464	CA	GLU	1233	−28.195	−29.943	−33.706	38.27	C
ATOM	1465	CB	GLU	1233	−27.97	−29.831	−32.326	38.85	C
ATOM	1466	CG	GLU	1233	−28.074	−28.876	−31.65	39.43	C
ATOM	1467	CD	GLU	1233	−27.167	−29.213	−30.633	40.62	C
ATOM	1468	OE1	GLU	1233	−27.027	−30.394	−30.339	41.43	O
ATOM	1469	OE2	GLU	1233	−26.558	−28.342	−30.077	40.48	O
ATOM	1470	C	GLU	1233	−29.459	−29.134	−34.191	36.4	C
ATOM	1471	O	GLU	1233	−30.524	−29.669	−33.898	34.53	O
ATOM	1472	N	TYR	1234	−29.475	−28.188	−35.121	36.25	N
ATOM	1473	CA	TYR	1234	−30.734	−27.685	−35.527	36.56	C
ATOM	1474	CB	TYR	1234	−30.911	−26.216	−35.002	33.99	C
ATOM	1475	CG	TYR	1234	−31.224	−25.972	−33.511	31.79	C
ATOM	1476	CD1	TYR	1234	−30.212	−25.93	−32.539	31.24	C
ATOM	1477	CE1	TYR	1234	−30.517	−25.712	−31.174	30.51	C
ATOM	1478	CD2	TYR	1234	−32.541	−25.784	−33.081	30.83	C
ATOM	1479	CE2	TYR	1234	−32.85	−25.571	−31.73	31.34	C
ATOM	1480	CZ	TYR	1234	−31.84	−25.539	−30.786	30.26	C
ATOM	1481	OH	TYR	1234	−32.168	−25.366	−29.461	30.54	O
ATOM	1482	C	TYR	1234	−30.732	−27.612	−37.001	38.61	C
ATOM	1483	O	TYR	1234	−29.768	−27.222	−37.647	38.99	O
ATOM	1484	N	TYR	1235	−31.838	−28.06	−37.605	40.77	N
ATOM	1485	CA	TYR	1235	−31.738	−27.772	−38.957	42.64	C
ATOM	1486	CB	TYR	1235	−31.678	−29.069	−39.669	46.84	C
ATOM	1487	CG	TYR	1235	−32.849	−29.778	−39.865	50.38	C
ATOM	1488	CD1	TYR	1235	−34.004	−29.171	−39.769	53.12	C
ATOM	1489	CE1	TYR	1235	−35.198	−29.749	−40.213	55.79	C
ATOM	1490	CD2	TYR	1235	−32.817	−31.021	−40.357	53.24	C
ATOM	1491	CE2	TYR	1235	−34.04	−31.664	−40.801	55.03	C
ATOM	1492	CZ	TYR	1235	−35.279	−30.998	−40.743	55.74	C
ATOM	1493	OH	TYR	1235	−36.599	−31.478	−41.034	56.64	O
ATOM	1494	C	TYR	1235	−32.684	−26.594	−39.33	42.38	C
ATOM	1495	O	TYR	1235	−33.349	−26.096	−38.446	40.51	O
ATOM	1496	N	SER	1236	−32.562	−26.056	−40.555	43.09	N
ATOM	1497	CA	SER	1236	−33.212	−24.801	−41.007	45.87	C
ATOM	1498	CB	SER	1236	−32.195	−23.721	−41.381	45.81	C
ATOM	1499	OG	SER	1236	−32.456	−22.403	−40.912	46.19	O
ATOM	1500	C	SER	1236	−33.855	−25.128	−42.242	46.98	C
ATOM	1501	O	SER	1236	−33.2	−25.525	−43.229	46.05	O
ATOM	1502	N	VAL	1237	−35.127	−24.83	−42.112	49.49	N
ATOM	1503	CA	VAL	1237	−36.152	−25.135	−42.976	53.03	C
ATOM	1504	CB	VAL	1237	−36.004	−26.282	−43.795	54.51	C
ATOM	1505	CG1	VAL	1237	−37.535	−26.564	−44.634	55.14	C
ATOM	1506	CG2	VAL	1237	−34.579	−26.099	−44.653	55.8	C
ATOM	1507	C	VAL	1237	−37.635	−25.216	−42.705	53.76	C
ATOM	1508	O	VAL	1237	−38.019	−25.752	−41.647	56	O
ATOM	1509	N	HIS	1238	−37.758	−23.997	−43.136	52.4	N
ATOM	1510	CA	HIS	1238	−37.717	−23.906	−44.535	51.91	C
ATOM	1511	CB	HIS	1238	−38.465	−22.886	−45.254	54.35	C
ATOM	1512	CG	HIS	1238	−39.616	−23.437	−45.974	57.6	C
ATOM	1513	CD2	HIS	1238	−40.346	−22.958	−47.004	58.86	C
ATOM	1514	ND1	HIS	1238	−40.192	−24.626	−45.598	58.65	N
ATOM	1515	CE1	HIS	1238	−41.237	−24.859	−46.368	60.01	C
ATOM	1516	NE2	HIS	1238	−41.353	−23.862	−47.23	59.82	N
ATOM	1517	C	HIS	1238	−36.249	−23.225	−44.582	48.89	C
ATOM	1518	O	HIS	1238	−35.761	−22.506	−43.669	48.04	O
ATOM	1519	N	ASN	1239	−35.594	−23.733	−45.588	45.16	N
ATOM	1520	CA	ASN	1239	−34.522	−23.154	−46.263	42.36	C
ATOM	1521	CB	ASN	1239	−34.461	−23.909	−47.567	39.19	C
ATOM	1522	CG	ASN	1239	−33.336	−24.794	−47.582	36.67	C
ATOM	1523	OD1	ASN	1239	−32.361	−24.421	−47.049	32.64	O
ATOM	1524	ND2	ASN	1239	−33.421	−25.953	−48.131	35.18	N
ATOM	1525	C	ASN	1239	−35.228	−21.819	−46.602	41.96	C
ATOM	1526	O	ASN	1239	−34.606	−20.882	−47.041	40.93	O
ATOM	1527	N	LYS	1240	−36.529	−21.728	−46.411	42.34	N
ATOM	1528	CA	LYS	1240	−37.182	−20.524	−46.813	43.5	C
ATOM	1529	CB	LYS	1240	−38.236	−20.938	−47.786	45.68	C
ATOM	1530	CG	LYS	1240	−38.978	−19.876	−48.424	49.63	C
ATOM	1531	CD	LYS	1240	−39.862	−20.598	−49.314	52.15	C
ATOM	1532	CE	LYS	1240	−40.698	−19.81	−50.23	53.54	C
ATOM	1533	NZ	LYS	1240	−41.324	−20.804	−51.138	53.01	N
ATOM	1534	C	LYS	1240	−37.69	−19.72	−45.646	42.44	C
ATOM	1535	O	LYS	1240	−37.456	−18.534	−45.622	43.49	O
ATOM	1536	N	THR	1241	−38.354	−20.336	−44.673	40.41	N
ATOM	1537	CA	THR	1241	−38.785	−19.59	−43.49	38.28	C
ATOM	1538	CB	THR	1241	−39.811	−20.311	−42.655	37.86	C
ATOM	1539	OG1	THR	1241	−39.215	−21.421	−41.969	35.48	O
ATOM	1540	CG2	THR	1241	−40.791	−20.851	−43.504	37.56	C
ATOM	1541	C	THR	1241	−37.666	−19.407	−42.501	37.63	C
ATOM	1542	O	THR	1241	−37.766	−18.558	−41.64	38.27	O
ATOM	1543	N	GLY	1242	−36.621	−20.22	−42.576	36.14	N
ATOM	1544	CA	GLY	1242	−35.569	−20.096	−41.584	33.51	C
ATOM	1545	C	GLY	1242	−35.945	−20.657	−40.222	32.78	C
ATOM	1546	O	GLY	1242	−35.296	−20.446	−39.216	32.4	O
ATOM	1547	N	ALA	1243	−36.965	−21.453	−40.154	30.86	N
ATOM	1548	CA	ALA	1243	−37.285	−21.872	−38.837	30.24	C
ATOM	1549	CB	ALA	1243	−38.591	−22.411	−38.953	31.17	C
ATOM	1550	C	ALA	1243	−36.196	−22.869	−38.28	29.29	C
ATOM	1551	O	ALA	1243	−35.507	−23.504	−39.074	28.68	O
ATOM	1552	N	LYS	1244	−35.951	−22.972	−36.968	27.71	N
ATOM	1553	CA	LYS	1244	−34.908	−23.918	−36.53	27.48	C
ATOM	1554	CB	LYS	1244	−33.923	−23.33	−35.522	28.19	C
ATOM	1555	CG	LYS	1244	−33.554	−21.899	−35.836	29.18	C
ATOM	1556	CD	LYS	1244	−32.685	−21.772	−37.068	30.21	C
ATOM	1557	CE	LYS	1244	−32.757	−20.362	−37.658	34.05	C
ATOM	1558	NZ	LYS	1244	−33.43	−19.381	−36.754	35.34	N
ATOM	1559	C	LYS	1244	−35.595	−25.092	−35.941	27.46	C
ATOM	1560	O	LYS	1244	−36.579	−24.986	−35.212	27.05	O
ATOM	1561	N	LEU	1245	−35.016	−26.227	−36.213	26.57	N
ATOM	1562	CA	LEU	1245	−35.698	−27.39	−35.828	25.63	C
ATOM	1563	CB	LEU	1245	−36.319	−27.817	−37.122	26.81	C
ATOM	1564	CG	LEU	1245	−37.185	−26.893	−37.928	27.54	C
ATOM	1565	CD1	LEU	1245	−36.824	−27.236	−39.225	29.71	C
ATOM	1566	CD2	LEU	1245	−38.559	−27.221	−37.86	29.25	C
ATOM	1567	C	LEU	1245	−34.862	−28.475	−35.12	23.78	C
ATOM	1568	O	LEU	1245	−33.954	−29.072	−35.711	24.46	O
ATOM	1569	N	PRO	1246	−35.134	−28.688	−33.814	21.49	N
ATOM	1570	CD	PRO	1246	−36.076	−27.899	−32.992	22.41	C
ATOM	1571	CA	PRO	1246	−34.45	−29.686	−32.982	20.52	C
ATOM	1572	CB	PRO	1246	−34.893	−29.326	−31.563	20.74	C
ATOM	1573	CG	PRO	1246	−36.27	−28.784	−31.769	22.45	C
ATOM	1574	C	PRO	1246	−34.929	−31.054	−33.419	18.08	C
ATOM	1575	O	PRO	1246	−35.579	−31.778	−32.663	17.77	O
ATOM	1576	N	VAL	1247	−34.609	−31.386	−34.664	17.04	N
ATOM	1577	CA	VAL	1247	−35.005	−32.65	−35.261	16.91	C
ATOM	1578	CB	VAL	1247	−34.141	−33.039	−36.451	18.82	C
ATOM	1579	CG1	VAL	1247	−34.435	−32.219	−37.548	17.47	C
ATOM	1580	CG2	VAL	1247	−32.717	−32.843	−36.16	22.1	C
ATOM	1581	C	VAL	1247	−34.917	−33.816	−34.315	16.17	C
ATOM	1582	O	VAL	1247	−35.866	−34.571	−34.161	15.61	O
ATOM	1583	N	LYS	1248	−33.768	−33.966	−33.677	15.85	N
ATOM	1584	CA	LYS	1248	−33.576	−35.092	−32.784	14.63	C
ATOM	1585	CB	LYS	1248	−32.092	−35.337	−32.625	17.18	C
ATOM	1586	CG	LYS	1248	−31.533	−35.883	−33.913	19.71	C
ATOM	1587	CD	LYS	1248	−30.083	−36.145	−33.764	22.1	C
ATOM	1588	CE	LYS	1248	−29.479	−36.741	−34.994	23.2	C
ATOM	1589	NZ	LYS	1248	−28.029	−36.572	−34.748	29.5	N
ATOM	1590	C	LYS	1248	−34.291	−35.113	−31.44	15.45	C
ATOM	1591	O	LYS	1248	−34.255	−36.141	−30.745	13.52	O
ATOM	1592	N	TRP	1249	−34.935	−33.999	−31.079	12.34	N
ATOM	1593	CA	TRP	1249	−35.734	−33.909	−29.855	12.07	C
ATOM	1594	CB	TRP	1249	−35.377	−32.678	−29.002	11.94	C
ATOM	1595	CG	TRP	1249	−34.121	−32.803	−28.185	11.75	C
ATOM	1596	CD2	TRP	1249	−32.786	−32.749	−28.683	9.74	C
ATOM	1597	CE2	TRP	1249	−31.921	−32.988	−27.594	11.73	C
ATOM	1598	CE3	TRP	1249	−32.235	−32.534	−29.955	11.43	C
ATOM	1599	CD1	TRP	1249	−34.021	−33.056	−26.836	10.88	C
ATOM	1600	NE1	TRP	1249	−32.699	−33.171	−26.48	10.21	N
ATOM	1601	CZ2	TRP	1249	−30.528	−33.017	−27.737	12.35	C
ATOM	1602	CZ3	TRP	1249	−30.85	−32.564	−30.102	9.5	C
ATOM	1603	CH2	TRP	1249	−30.013	−32.804	−28.995	11.36	C
ATOM	1604	C	TRP	1249	−37.187	−33.763	−30.288	13.69	C
ATOM	1605	O	TRP	1249	−38.075	−33.743	−29.447	14.98	O
ATOM	1606	N	MET	1250	−37.435	−33.665	−31.595	13.34	N
ATOM	1607	CA	MET	1250	−38.799	−33.485	−32.102	13.11	C
ATOM	1608	CB	MET	1250	−38.806	−32.79	−33.475	11.56	C
ATOM	1609	CG	MET	1250	−38.605	−31.283	−33.468	15.9	C
ATOM	1610	SD	MET	1250	−38.179	−30.668	−35.141	17.57	S
ATOM	1611	CE	MET	1250	−39.682	−31.196	−36.142	17.78	C
ATOM	1612	C	MET	1250	−39.579	−34.772	−32.239	12.68	C
ATOM	1613	O	MET	1250	−39.028	−35.823	−32.568	13.57	O
ATOM	1614	N	ALA	1251	−40.884	−34.68	−32.026	12.09	N
ATOM	1615	CA	ALA	1251	−41.718	−35.859	−32.137	13.59	C
ATOM	1616	CB	ALA	1251	−42.981	−35.663	−31.356	13.36	C
ATOM	1617	C	ALA	1251	−42.044	−36.246	−33.58	16.39	C
ATOM	1618	O	ALA	1251	−42.113	−35.397	−34.48	14.98	O
ATOM	1619	N	LEU	1252	−42.254	−37.548	−33.773	17.37	N
ATOM	1620	CA	LEU	1252	−42.573	−38.11	−35.074	17.41	C
ATOM	1621	CB	LEU	1252	−43.224	−39.505	−34.909	17.7	C
ATOM	1622	CG	LEU	1252	−43.415	−40.392	−36.149	15.74	C
ATOM	1623	CD1	LEU	1252	−42.258	−40.179	−37.122	14.12	C
ATOM	1624	CD2	LEU	1252	−43.491	−41.858	−35.733	16.89	C
ATOM	1625	C	LEU	1252	−43.49	−37.2	−35.88	17.33	C
ATOM	1626	O	LEU	1252	−43.167	−36.85	−37.008	16.45	O
ATOM	1627	N	GLU	1253	−44.609	−36.78	−35.293	18.42	N
ATOM	1628	CA	GLU	1253	−45.558	−35.955	−36.034	20.38	C
ATOM	1629	CB	GLU	1253	−46.936	−35.976	−35.347	22.08	C
ATOM	1630	CG	GLU	1253	−47.116	−35.11	−34.102	23.88	C
ATOM	1631	CD	GLU	1253	−46.628	−35.757	−32.814	27.39	C
ATOM	1632	OE1	GLU	1253	−46.309	−36.965	−32.809	28.41	O
ATOM	1633	OE2	GLU	1253	−46.575	−35.044	−31.791	29.51	O
ATOM	1634	C	GLU	1253	−45.127	−34.518	−36.358	21.17	C
ATOM	1635	O	GLU	1253	−45.629	−33.92	−37.32	20.27	O
ATOM	1636	N	SER	1254	−44.198	−33.972	−35.574	19.04	N
ATOM	1637	CA	SER	1254	−43.695	−32.62	−35.817	20.94	C
ATOM	1638	CB	SER	1254	−42.98	−32.078	−34.573	17.59	C
ATOM	1639	OG	SER	1254	−43.826	−32.137	−33.439	17.95	O
ATOM	1640	C	SER	1254	−42.705	−32.72	−36.971	20.79	C
ATOM	1641	O	SER	1254	−42.545	−31.793	−37.757	21.89	O
ATOM	1642	N	LEU	1255	−42.033	−33.858	−37.066	21.85	N
ATOM	1643	CA	LEU	1255	−41.078	−34.054	−38.149	23.75	C
ATOM	1644	CB	LEU	1255	−40.31	−35.356	−37.971	22.37	C
ATOM	1645	CG	LEU	1255	−39.313	−35.423	−36.82	21.95	C
ATOM	1646	CD1	LEU	1255	−38.573	−36.757	−36.904	22.01	C
ATOM	1647	CD2	LEU	1255	−38.337	−34.255	−36.903	20.85	C
ATOM	1648	C	LEU	1255	−41.833	−34.1	−39.466	25.17	C
ATOM	1649	O	LEU	1255	−41.315	−33.701	−40.51	25.31	O
ATOM	1650	N	GLN	1256	−43.06	−34.601	−39.397	26.07	N
ATOM	1651	CA	GLN	1256	−43.92	−34.717	−40.555	27.58	C
ATOM	1652	CB	GLN	1256	−44.909	−35.877	−40.345	27.79	C
ATOM	1653	CG	GLN	1256	−44.289	−37.284	−40.403	30.43	C
ATOM	1654	CD	GLN	1256	−45.281	−38.364	−39.99	33.67	C
ATOM	1655	OE1	GLN	1256	−45.421	−39.39	−40.654	35.61	O
ATOM	1656	NE2	GLN	1256	−45.972	−38.132	−38.88	34.01	N
ATOM	1657	C	GLN	1256	−44.657	−33.395	−40.834	27.62	C
ATOM	1658	O	GLN	1256	−44.562	−32.87	−41.937	29.77	O
ATOM	1659	N	THR	1257	−45.358	−32.837	−39.845	27.72	N
ATOM	1660	CA	THR	1257	−46.1	−31.578	−40.036	27.3	C
ATOM	1661	CB	THR	1257	−47.357	−31.499	−39.114	26.41	C
ATOM	1662	OG1	THR	1257	−46.963	−31.701	−37.75	26.82	O
ATOM	1663	CG2	THR	1257	−48.414	−32.514	−39.521	25.55	C
ATOM	1664	C	THR	1257	−45.381	−30.216	−39.847	27.61	C
ATOM	1665	O	THR	1257	−45.77	−29.234	−40.466	27.07	O
ATOM	1666	N	GLN	1258	−44.355	−30.167	−39	28.64	N
ATOM	1667	CA	GLN	1258	−43.603	−28.941	−38.626	29.71	C
ATOM	1668	CB	GLN	1258	−43.165	−28.034	−39.826	30.88	C
ATOM	1669	CG	GLN	1258	−41.693	−27.435	−39.662	34.29	C
ATOM	1670	CD	GLN	1258	−41.388	−26.084	−40.38	35.42	C
ATOM	1671	OE1	GLN	1258	−41.11	−25.07	−39.724	37.02	O
ATOM	1672	NE2	GLN	1258	−41.413	−26.085	−41.712	35.8	N
ATOM	1673	C	GLN	1258	−44.51	−28.144	−37.677	28.89	C
ATOM	1674	O	GLN	1258	−44.27	−26.967	−37.414	29.27	O
ATOM	1675	N	LYS	1259	−45.553	−28.805	−37.168	28.49	N
ATOM	1676	CA	LYS	1259	−46.496	−28.196	−36.221	28.29	C
ATOM	1677	CB	LYS	1259	−47.963	−28.4	−36.727	28.96	C
ATOM	1678	CG	LYS	1259	−48.203	−28.05	−38.258	31	C
ATOM	1679	CD	LYS	1259	−49.257	−26.931	−38.585	32.59	C
ATOM	1680	CE	LYS	1259	−50.617	−27.453	−39.126	33.31	C
ATOM	1681	NZ	LYS	1259	−51.559	−27.921	−38.065	36.13	N
ATOM	1682	C	LYS	1259	−46.215	−28.858	−34.828	26.44	C
ATOM	1683	O	LYS	1259	−46.07	−30.079	−34.741	26.47	O
ATOM	1684	N	PHE	1260	−46.088	−28.045	−33.767	25.21	N
ATOM	1685	CA	PHE	1260	−45.781	−28.507	−32.388	24.1	C
ATOM	1686	CB	PHE	1260	−44.607	−27.704	−31.792	23.41	C
ATOM	1687	CG	PHE	1260	−43.308	−27.831	−32.547	25.91	C
ATOM	1688	CD1	PHE	1260	−43.116	−27.165	−33.758	27.41	C
ATOM	1689	CD2	PHE	1260	−42.265	−28.605	−32.036	27.23	C
ATOM	1690	CE1	PHE	1260	−41.902	−27.269	−34.449	26.54	C
ATOM	1691	CE2	PHE	1260	−41.049	−28.714	−32.721	27.29	C
ATOM	1692	CZ	PHE	1260	−40.871	−28.045	−33.927	26.57	C
ATOM	1693	C	PHE	1260	−46.937	−28.426	−31.368	22.89	C
ATOM	1694	O	PHE	1260	−47.811	−27.568	−31.478	22.69	O
ATOM	1695	N	THR	1261	−46.919	−29.294	−30.354	21.28	N
ATOM	1696	CA	THR	1261	−47.968	−29.297	−29.325	21.08	C
ATOM	1697	CB	THR	1261	−49.112	−30.269	−29.709	21.01	C
ATOM	1698	OG1	THR	1261	−48.76	−31.601	−29.316	21.47	O
ATOM	1699	CG2	THR	1261	−49.338	−30.256	−31.227	21.65	C
ATOM	1700	C	THR	1261	−47.389	−29.708	−27.957	20.48	C
ATOM	1701	O	THR	1261	−46.199	−30.017	−27.857	17.26	O
ATOM	1702	N	THR	1262	−48.204	−29.707	−26.902	20.44	N
ATOM	1703	CA	THR	1262	−47.678	−30.099	−25.592	19.37	C
ATOM	1704	CB	THR	1262	−48.688	−29.783	−24.445	18.52	C
ATOM	1705	OG1	THR	1262	−48.865	−28.364	−24.364	22.58	O
ATOM	1706	CG2	THR	1262	−48.153	−30.24	−23.091	17.69	C
ATOM	1707	C	THR	1262	−47.24	−31.571	−25.597	17.47	C
ATOM	1708	O	THR	1262	−46.342	−31.946	−24.851	18.79	O
ATOM	1709	N	LYS	1263	−47.834	−32.392	−26.47	19.24	N
ATOM	1710	CA	LYS	1263	−47.446	−33.809	−26.592	18.23	C
ATOM	1711	CB	LYS	1263	−48.518	−34.637	−27.304	16.94	C
ATOM	1712	CG	LYS	1263	−49.874	−34.561	−26.667	19.51	C
ATOM	1713	CD	LYS	1263	−49.769	−34.879	−25.188	23.06	C
ATOM	1714	CE	LYS	1263	−51.108	−35.281	−24.587	22.44	C
ATOM	1715	NZ	LYS	1263	−50.893	−35.855	−23.223	24.48	N
ATOM	1716	C	LYS	1263	−46.14	−33.96	−27.367	17.16	C
ATOM	1717	O	LYS	1263	−45.417	−34.929	−27.17	18.48	O
ATOM	1718	N	SER	1264	−45.838	−33.039	−28.271	16.85	N
ATOM	1719	CA	SER	1264	−44.569	−33.169	−28.971	17.48	C
ATOM	1720	CB	SER	1264	−44.558	−32.344	−30.259	17.7	C
ATOM	1721	OG	SER	1264	−44.882	−30.994	−30.001	18.83	O
ATOM	1722	C	SER	1264	−43.496	−32.696	−27.968	17.45	C
ATOM	1723	O	SER	1264	−42.329	−33.071	−28.077	17.64	O
ATOM	1724	N	ASP	1265	−43.928	−31.889	−26.988	14.49	N
ATOM	1725	CA	ASP	1265	−43.089	−31.368	−25.888	14.77	C
ATOM	1726	CB	ASP	1265	−43.831	−30.278	−25.093	16.44	C
ATOM	1727	CG	ASP	1265	−43.451	−28.85	−25.492	17.46	C
ATOM	1728	OD1	ASP	1265	−42.537	−28.634	−26.318	17.88	O
ATOM	1729	OD2	ASP	1265	−44.092	−27.925	−24.949	18.78	O
ATOM	1730	C	ASP	1265	−42.801	−32.522	−24.911	12.9	C
ATOM	1731	O	ASP	1265	−41.713	−32.626	−24.349	13.55	O
ATOM	1732	N	VAL	1266	−43.818	−33.35	−24.681	11.93	N
ATOM	1733	CA	VAL	1266	−43.692	−34.515	−23.816	13.82	C
ATOM	1734	CB	VAL	1266	−45.068	−35.254	−23.686	14.9	C
ATOM	1735	CG1	VAL	1266	−44.876	−36.7	−23.246	10.56	C
ATOM	1736	CG2	VAL	1266	−45.966	−34.507	−22.686	12.47	C
ATOM	1737	C	VAL	1266	−42.65	−35.397	−24.52	14.39	C
ATOM	1738	O	VAL	1266	−41.717	−35.906	−23.892	14.25	O
ATOM	1739	N	TRP	1267	−42.788	−35.55	−25.835	14.88	N
ATOM	1740	CA	TRP	1267	−41.816	−36.352	−26.578	15.69	C
ATOM	1741	CB	TRP	1267	−42.062	−36.328	−28.087	16.09	C
ATOM	1742	CG	TRP	1267	−41.057	−37.186	−28.883	17.05	C
ATOM	1743	CD2	TRP	1267	−41.368	−38.331	−29.682	17.26	C
ATOM	1744	CE2	TRP	1267	−40.157	−38.801	−30.243	17.57	C
ATOM	1745	CE3	TRP	1267	−42.556	−39.004	−29.981	17.76	C
ATOM	1746	CD1	TRP	1267	−39.694	−37.01	−28.986	17.69	C
ATOM	1747	NE1	TRP	1267	−39.151	−37.98	−29.804	18.08	N
ATOM	1748	CZ2	TRP	1267	−40.107	−39.916	−31.087	19.89	C
ATOM	1749	CZ3	TRP	1267	−42.505	−40.112	−30.822	18.54	C
ATOM	1750	CH2	TRP	1267	−41.289	−40.556	−31.362	19.43	C
ATOM	1751	C	TRP	1267	−40.411	−35.813	−26.332	16.62	C
ATOM	1752	O	TRP	1267	−39.511	−36.586	−26.023	17.18	O
ATOM	1753	N	SER	1268	−40.217	−34.501	−26.488	14.99	N
ATOM	1754	CA	SER	1268	−38.891	−33.91	−26.286	14.28	C
ATOM	1755	CB	SER	1268	−38.876	−32.398	−26.566	14.67	C
ATOM	1756	OG	SER	1268	−39.424	−32.051	−27.825	19.01	O
ATOM	1757	C	SER	1268	−38.408	−34.098	−24.858	12.79	C
ATOM	1758	O	SER	1268	−37.216	−34.252	−24.62	12.21	O
ATOM	1759	N	PHE	1269	−39.327	−34.039	−23.9	10.34	N
ATOM	1760	CA	PHE	1269	−38.932	−34.194	−22.512	12.36	C
ATOM	1761	CB	PHE	1269	−40.12	−33.897	−21.59	12.12	C
ATOM	1762	CG	PHE	1269	−39.85	−34.2	−20.149	15.09	C
ATOM	1763	CD1	PHE	1269	−39.046	−33.365	−19.372	14.94	C
ATOM	1764	CD2	PHE	1269	−40.355	−35.363	−19.582	14.21	C
ATOM	1765	CE1	PHE	1269	−38.751	−33.695	−18.053	15.06	C
ATOM	1766	CE2	PHE	1269	−40.063	−35.699	−18.267	15.58	C
ATOM	1767	CZ	PHE	1269	−39.26	−34.863	−17.503	14.09	C
ATOM	1768	C	PHE	1269	−38.371	−35.603	−22.286	11.45	C
ATOM	1769	O	PHE	1269	−37.429	−35.791	−21.522	14.03	O
ATOM	1770	N	GLY	1270	−38.945	−36.591	−22.965	12.93	N
ATOM	1771	CA	GLY	1270	−38.442	−37.947	−22.849	13.38	C
ATOM	1772	C	GLY	1270	−37.016	−38.029	−23.388	12.82	C
ATOM	1773	O	GLY	1270	−36.209	−38.804	−22.873	13.02	O
ATOM	1774	N	VAL	1271	−36.702	−37.248	−24.428	12.51	N
ATOM	1775	CA	VAL	1271	−35.34	−37.23	−24.987	12.39	C
ATOM	1776	CB	VAL	1271	−35.256	−36.469	−26.371	12.83	C
ATOM	1777	CG1	VAL	1271	−33.818	−36.39	−26.846	14.09	C
ATOM	1778	CG2	VAL	1271	−36.044	−37.203	−27.429	12.97	C
ATOM	1779	C	VAL	1271	−34.414	−36.555	−23.96	11.86	C
ATOM	1780	O	VAL	1271	−33.262	−36.961	−23.81	13.66	O
ATOM	1781	N	LEU	1272	−34.927	−35.537	−23.254	12.4	N
ATOM	1782	CA	LEU	1272	−34.163	−34.832	−22.21	11.28	C
ATOM	1783	CB	LEU	1272	−34.961	−33.628	−21.648	12.83	C
ATOM	1784	CG	LEU	1272	−34.465	−32.674	−20.527	12.7	C
ATOM	1785	CD1	LEU	1272	−35.271	−31.379	−20.589	11.58	C
ATOM	1786	CD2	LEU	1272	−34.622	−33.302	−19.134	16.29	C
ATOM	1787	C	LEU	1272	−33.857	−35.824	−21.083	10.67	C
ATOM	1788	O	LEU	1272	−32.73	−35.884	−20.59	9.63	O
ATOM	1789	N	LEU	1273	−34.853	−36.612	−20.682	10.3	N
ATOM	1790	CA	LEU	1273	−34.622	−37.59	−19.62	12.31	C
ATOM	1791	CB	LEU	1273	−35.879	−38.415	−19.343	13.07	C
ATOM	1792	CG	LEU	1273	−37.038	−37.707	−18.634	15.53	C
ATOM	1793	CD1	LEU	1273	−38.259	−38.639	−18.597	13.92	C
ATOM	1794	CD2	LEU	1273	−36.605	−37.302	−17.236	12.41	C
ATOM	1795	C	LEU	1273	−33.494	−38.518	−20.061	11.72	C
ATOM	1796	O	LEU	1273	−32.638	−38.887	−19.265	10.87	O
ATOM	1797	N	TRP	1274	−33.508	−38.888	−21.34	10.2	N
ATOM	1798	CA	TRP	1274	−32.487	−39.765	−21.891	11.44	C
ATOM	1799	CB	TRP	1274	−32.866	−40.2	−23.321	10.95	C
ATOM	1800	CG	TRP	1274	−31.903	−41.19	−23.98	10.98	C
ATOM	1801	CD2	TRP	1274	−30.712	−40.861	−24.698	9.72	C
ATOM	1802	CE2	TRP	1274	−30.124	−42.072	−25.12	11.07	C
ATOM	1803	CE3	TRP	1274	−30.083	−39.652	−25.024	13.5	C
ATOM	1804	CD1	TRP	1274	−31.989	−42.562	−23.993	10.52	C
ATOM	1805	NE1	TRP	1274	−30.921	−43.096	−24.679	9.57	N
ATOM	1806	CZ2	TRP	1274	−28.93	−42.109	−25.858	13.29	C
ATOM	1807	CZ3	TRP	1274	−28.897	−39.688	−25.756	13.28	C
ATOM	1808	CH2	TRP	1274	−28.335	−40.91	−26.166	12.43	C
ATOM	1809	C	TRP	1274	−31.104	−39.087	−21.867	11.05	C
ATOM	1810	O	TRP	1274	−30.12	−39.746	−21.551	10.69	O
ATOM	1811	N	GLU	1275	−31.015	−37.79	−22.184	11.93	N
ATOM	1812	CA	GLU	1275	−29.706	−37.111	−22.147	12.13	C
ATOM	1813	CB	GLU	1275	−29.778	−35.657	−22.624	14.74	C
ATOM	1814	CG	GLU	1275	−30.309	−35.362	−24.01	18.02	C
ATOM	1815	CD	GLU	1275	−30.436	−33.856	−24.191	20.57	C
ATOM	1816	OE1	GLU	1275	−31.573	−33.324	−24.15	19.95	O
ATOM	1817	OE2	GLU	1275	−29.385	−33.197	−24.333	21.55	O
ATOM	1818	C	GLU	1275	−29.203	−37.059	−20.694	12.79	C
ATOM	1819	O	GLU	1275	−27.999	−37.121	−20.435	9.21	O
ATOM	1820	N	LEU	1276	−30.139	−36.898	−19.759	11.64	N
ATOM	1821	CA	LEU	1276	−29.83	−36.83	−18.333	13.52	C
ATOM	1822	CB	LEU	1276	−31.128	−36.608	−17.524	13.33	C
ATOM	1823	CG	LEU	1276	−31.604	−35.226	−17.028	12.41	C
ATOM	1824	CD1	LEU	1276	−31.498	−34.247	−18.143	17.11	C
ATOM	1825	CD2	LEU	1276	−33.046	−35.271	−16.511	11.26	C
ATOM	1826	C	LEU	1276	−29.15	−38.125	−17.882	15.4	C
ATOM	1827	O	LEU	1276	−28.046	−38.11	−17.327	16.84	O
ATOM	1828	N	MET	1277	−29.804	−39.249	−18.154	14.23	N
ATOM	1829	CA	MET	1277	−29.288	−40.553	−17.76	16.99	C
ATOM	1830	CB	MET	1277	−30.375	−41.605	−17.97	17.95	C
ATOM	1831	CG	MET	1277	−31.64	−41.311	−17.168	21.05	C
ATOM	1832	SD	MET	1277	−31.277	−41.118	−15.408	28.97	S
ATOM	1833	CE	MET	1277	−30.177	−42.52	−15.198	24.12	C
ATOM	1834	C	MET	1277	−27.986	−40.976	−18.442	16.88	C
ATOM	1835	O	MET	1277	−27.249	−41.794	−17.902	17.63	O
ATOM	1836	N	THR	1278	−27.703	−40.425	−19.62	16.09	N
ATOM	1837	CA	THR	1278	−26.466	−40.753	−20.339	16.44	C
ATOM	1838	CB	THR	1278	−26.677	−40.824	−21.869	15.75	C
ATOM	1839	OG1	THR	1278	−27.275	−39.605	−22.322	14.11	O
ATOM	1840	CG2	THR	1278	−27.55	−42.021	−22.261	16.13	C
ATOM	1841	C	THR	1278	−25.412	−39.675	−20.096	16.13	C
ATOM	1842	O	THR	1278	−24.332	−39.707	−20.682	16.66	O
ATOM	1843	N	ARG	1279	−25.745	−38.744	−19.212	16.79	N
ATOM	1844	CA	ARG	1279	−24.908	−37.593	−18.881	17.42	C
ATOM	1845	CB	ARG	1279	−23.641	−37.996	−18.127	17.17	C
ATOM	1846	CG	ARG	1279	−23.982	−38.325	−16.685	19.24	C
ATOM	1847	CD	ARG	1279	−22.78	−38.507	−15.793	20.29	C
ATOM	1848	NE	ARG	1279	−22.028	−37.264	−15.776	22.44	N
ATOM	1849	CZ	ARG	1279	−20.833	−37.071	−15.228	24.32	C
ATOM	1850	NH1	ARG	1279	−20.181	−38.022	−14.565	25.1	N
ATOM	1851	NH2	ARG	1279	−20.267	−35.895	−15.386	23.97	N
ATOM	1852	C	ARG	1279	−24.534	−36.77	−20.082	17.7	C
ATOM	1853	O	ARG	1279	−23.371	−36.456	−20.262	21.43	O
ATOM	1854	N	GLY	1280	−25.503	−36.432	−20.924	15.97	N
ATOM	1855	CA	GLY	1280	−25.186	−35.597	−22.068	16.82	C
ATOM	1856	C	GLY	1280	−24.787	−36.224	−23.392	17.54	C
ATOM	1857	O	GLY	1280	−24.189	−35.542	−24.221	16.85	O
ATOM	1858	N	ALA	1281	−25.111	−37.498	−23.6	17.75	N
ATOM	1859	CA	ALA	1281	−24.802	−38.185	−24.853	17.82	C
ATOM	1860	CB	ALA	1281	−25.111	−39.671	−24.708	16.36	C
ATOM	1861	C	ALA	1281	−25.662	−37.587	−25.972	18.54	C
ATOM	1862	O	ALA	1281	−26.8	−37.201	−25.727	18.61	O
ATOM	1863	N	PRO	1282	−25.133	−37.482	−27.207	18.63	N
ATOM	1864	CD	PRO	1282	−23.748	−37.732	−27.652	19.37	C
ATOM	1865	CA	PRO	1282	−25.969	−36.916	−28.279	19.93	C
ATOM	1866	CB	PRO	1282	−24.942	−36.503	−29.346	20.38	C
ATOM	1867	CG	PRO	1282	−23.812	−37.491	−29.157	19.28	C
ATOM	1868	C	PRO	1282	−26.983	−37.973	−28.768	20.28	C
ATOM	1869	O	PRO	1282	−26.594	−39.101	−29.08	20.76	O
ATOM	1870	N	PRO	1283	−28.29	−37.634	−28.852	20.54	N
ATOM	1871	CD	PRO	1283	−28.977	−36.338	−28.822	20.35	C
ATOM	1872	CA	PRO	1283	−29.214	−38.685	−29.314	21.42	C
ATOM	1873	CB	PRO	1283	−30.604	−38.102	−29.052	20.81	C
ATOM	1874	CG	PRO	1283	−30.371	−36.751	−28.434	21.83	C
ATOM	1875	C	PRO	1283	−29.054	−39.061	−30.783	21.78	C
ATOM	1876	O	PRO	1283	−28.764	−38.205	−31.615	22.56	O
ATOM	1877	N	TYR	1284	−29.274	−40.337	−31.092	20.5	N
ATOM	1878	CA	TYR	1284	−29.159	−40.848	−32.46	21.94	C
ATOM	1879	CB	TYR	1284	−30.292	−40.303	−33.317	22.25	C
ATOM	1880	CG	TYR	1284	−31.641	−40.352	−32.651	21.17	C
ATOM	1881	CD1	TYR	1284	−32.432	−41.504	−32.706	20.04	C
ATOM	1882	CE1	TYR	1284	−33.676	−41.545	−32.084	18.05	C
ATOM	1883	CD2	TYR	1284	−32.122	−39.247	−31.955	19.85	C
ATOM	1884	CE2	TYR	1284	−33.348	−39.277	−31.331	19.2	C
ATOM	1885	CZ	TYR	1284	−34.125	−40.42	−31.396	18.12	C
ATOM	1886	OH	TYR	1284	−35.343	−40.403	−30.772	15.51	O
ATOM	1887	C	TYR	1284	−27.85	−40.349	−33.034	22.78	C
ATOM	1888	O	TYR	1284	−27.828	−39.743	−34.1	20.74	O
ATOM	1889	N	PRO	1285	−26.729	−40.632	−32.372	24.32	N
ATOM	1890	CD	PRO	1285	−26.367	−41.515	−31.248	25.4	C
ATOM	1891	CA	PRO	1285	−25.535	−40.079	−33.002	26.46	C
ATOM	1892	CB	PRO	1285	−24.43	−40.483	−32.031	25.47	C
ATOM	1893	CG	PRO	1285	−24.901	−41.795	−31.53	25.65	C
ATOM	1894	C	PRO	1285	−25.149	−40.395	−34.446	28.83	C
ATOM	1895	O	PRO	1285	−24.72	−39.505	−35.186	28.91	O
ATOM	1896	N	ASP	1286	−25.312	−41.639	−34.859	30.51	N
ATOM	1897	CA	ASP	1286	−24.845	−42.035	−36.171	34.63	C
ATOM	1898	CB	ASP	1286	−24.278	−43.468	−35.991	37.19	C
ATOM	1899	CG	ASP	1286	−22.867	−43.46	−35.32	40.75	C
ATOM	1900	OD1	ASP	1286	−22.625	−44.11	−34.265	42.38	O
ATOM	1901	OD2	ASP	1286	−21.982	−42.776	−35.881	42.78	O
ATOM	1902	C	ASP	1286	−25.778	−41.846	−37.407	35.2	C
ATOM	1903	O	ASP	1286	−25.432	−42.243	−38.535	35.64	O
ATOM	1904	N	VAL	1287	−26.884	−41.115	−37.173	33.72	N
ATOM	1905	CA	VAL	1287	−27.987	−40.815	−38.126	33.27	C
ATOM	1906	CB	VAL	1287	−29.318	−41.221	−37.487	32.97	C
ATOM	1907	CG1	VAL	1287	−29.1	−42.389	−36.558	32.75	C
ATOM	1908	CG2	VAL	1287	−29.893	−40.035	−36.693	34.84	C
ATOM	1909	C	VAL	1287	−28.233	−39.357	−38.616	32.3	C
ATOM	1910	O	VAL	1287	−28.04	−38.4	−37.861	31.13	O
ATOM	1911	N	ASN	1288	−28.724	−39.201	−39.852	30	N
ATOM	1912	CA	ASN	1288	−29.047	−37.87	−40.387	27.35	C
ATOM	1913	CB	ASN	1288	−28.569	−37.722	−41.843	25.1	C
ATOM	1914	CG	ASN	1288	−29.298	−38.651	−42.807	23.58	C
ATOM	1915	OD1	ASN	1288	−30.486	−38.905	−42.657	20.67	O
ATOM	1916	ND2	ASN	1288	−28.586	−39.14	−43.814	21.64	N
ATOM	1917	C	ASN	1288	−30.575	−37.662	−40.279	26.78	C
ATOM	1918	O	ASN	1288	−31.322	−38.629	−40.141	25.63	O
ATOM	1919	N	THR	1289	−31.033	−36.412	−40.355	27.2	N
ATOM	1920	CA	THR	1289	−32.457	−36.08	−40.193	28.7	C
ATOM	1921	CB	THR	1289	−32.638	−34.569	−40.092	29.7	C
ATOM	1922	OG1	THR	1289	−32.974	−34.004	−41.359	32.14	O
ATOM	1923	CG2	THR	1289	−31.363	−33.978	−39.679	30.98	C
ATOM	1924	C	THR	1289	−33.422	−36.64	−41.205	28.93	C
ATOM	1925	O	THR	1289	−34.637	−36.448	−41.092	29.84	O
ATOM	1926	N	PHE	1290	−32.885	−37.331	−42.202	28.3	N
ATOM	1927	CA	PHE	1290	−33.758	−37.948	−43.159	28.01	C
ATOM	1928	CB	PHE	1290	−33.15	−38.156	−44.519	28.4	C
ATOM	1929	CG	PHE	1290	−34.013	−39.008	−45.375	30.93	C
ATOM	1930	CD1	PHE	1290	−35.181	−38.489	−45.906	30.67	C
ATOM	1931	CD2	PHE	1290	−33.737	−40.355	−45.547	29.81	C
ATOM	1932	CE1	PHE	1290	−36.058	−39.292	−46.589	32.06	C
ATOM	1933	CE2	PHE	1290	−34.615	−41.167	−46.231	32.26	C
ATOM	1934	CZ	PHE	1290	−35.777	−40.635	−46.752	31.34	C
ATOM	1935	C	PHE	1290	−34.152	−39.321	−42.675	27.78	C
ATOM	1936	O	PHE	1290	−35.296	−39.718	−42.827	27.15	O
ATOM	1937	N	ASP	1291	−33.237	−40.09	−42.117	26.53	N
ATOM	1938	CA	ASP	1291	−33.727	−41.38	−41.705	28.3	C
ATOM	1939	CB	ASP	1291	−32.878	−42.484	−42.312	31.72	C
ATOM	1940	CG	ASP	1291	−31.43	−42.208	−42.173	34.91	C
ATOM	1941	OD1	ASP	1291	−31.077	−41.644	−41.112	36.01	O
ATOM	1942	OD2	ASP	1291	−30.662	−42.549	−43.101	32.69	O
ATOM	1943	C	ASP	1291	−33.923	−41.575	−40.212	26.5	C
ATOM	1944	O	ASP	1291	−34.187	−42.688	−39.761	25.11	O
ATOM	1945	N	ILE	1292	−33.793	−40.505	−39.436	24.99	N
ATOM	1946	CA	ILE	1292	−34.075	−40.621	−38.016	24.84	C
ATOM	1947	CB	ILE	1292	−33.607	−39.358	−37.223	25.08	C
ATOM	1948	CG2	ILE	1292	−34.193	−38.124	−37.85	24.46	C
ATOM	1949	CG1	ILE	1292	−34.071	−39.404	−35.759	23.22	C
ATOM	1950	CD	ILE	1292	−34.253	−40.785	−35.155	25.97	C
ATOM	1951	C	ILE	1292	−35.61	−40.707	−38.075	24.13	C
ATOM	1952	O	ILE	1292	−36.254	−41.303	−37.217	23.5	O
ATOM	1953	N	THR	1293	−36.179	−40.143	−39.14	23.68	N
ATOM	1954	CA	THR	1293	−37.624	−40.139	−39.33	24.12	C
ATOM	1955	CB	THR	1293	−38.036	−39.061	−40.377	26.66	C
ATOM	1956	OG1	THR	1293	−37.503	−37.787	−39.975	28.33	O
ATOM	1957	CG2	THR	1293	−39.558	−38.934	−40.463	27.13	C
ATOM	1958	C	THR	1293	−38.115	−41.527	−39.741	24.12	C
ATOM	1959	O	THR	1293	−39.176	−41.98	−39.316	23.92	O
ATOM	1960	N	VAL	1294	−37.323	−42.201	−40.559	22.73	N
ATOM	1961	CA	VAL	1294	−37.638	−43.542	−40.998	22.69	C
ATOM	1962	CB	VAL	1294	−36.657	−43.948	−42.108	23.12	C
ATOM	1963	CG1	VAL	1294	−36.576	−45.413	−42.18	23.01	C
ATOM	1964	CG2	VAL	1294	−37.084	−43.339	−43.438	23.05	C
ATOM	1965	C	VAL	1294	−37.51	−44.466	−39.76	22.25	C
ATOM	1966	O	VAL	1294	−38.398	−45.284	−39.49	22.56	O
ATOM	1967	N	TYR	1295	−36.405	−44.297	−39.017	20.41	N
ATOM	1968	CA	TYR	1295	−36.074	−45.036	−37.775	19.13	C
ATOM	1969	CB	TYR	1295	−34.786	−44.436	−37.133	20.43	C
ATOM	1970	CG	TYR	1295	−34.263	−45.004	−35.773	22.2	C
ATOM	1971	CD1	TYR	1295	−33.174	−45.889	−35.729	22.09	C
ATOM	1972	CE1	TYR	1295	−32.652	−46.373	−34.502	22.58	C
ATOM	1973	CD2	TYR	1295	−34.823	−44.609	−34.54	21.45	C
ATOM	1974	CE2	TYR	1295	−34.299	−45.093	−33.299	22.41	C
ATOM	1975	CZ	TYR	1295	−33.216	−45.979	−33.302	22.9	C
ATOM	1976	OH	TYR	1295	−32.719	−46.521	−32.132	23.86	O
ATOM	1977	C	TYR	1295	−37.238	−44.967	−36.781	17.02	C
ATOM	1978	O	TYR	1295	−37.635	−45.987	−36.217	17.06	O
ATOM	1979	N	LEU	1296	−37.768	−43.764	−36.557	15.78	N
ATOM	1980	CA	LEU	1296	−38.892	−43.564	−35.636	15.62	C
ATOM	1981	CB	LEU	1296	−39.19	−42.069	−35.44	13.27	C
ATOM	1982	CG	LEU	1296	−38.167	−41.253	−34.648	14.85	C
ATOM	1983	CD1	LEU	1296	−38.665	−39.812	−34.44	13.49	C
ATOM	1984	CD2	LEU	1296	−37.931	−41.928	−33.301	12.69	C
ATOM	1985	C	LEU	1296	−40.107	−44.233	−36.242	17.24	C
ATOM	1986	O	LEU	1296	−40.917	−44.859	−35.547	17.7	O
ATOM	1987	N	LEU	1297	−40.224	−44.085	−37.555	18.13	N
ATOM	1988	CA	LEU	1297	−41.313	−44.68	−38.292	20.85	C
ATOM	1989	CB	LEU	1297	−41.21	−44.288	−39.778	22.8	C
ATOM	1990	CG	LEU	1297	−42.437	−43.505	−40.283	24.14	C
ATOM	1991	CD1	LEU	1297	−43.187	−42.928	−39.098	26.68	C
ATOM	1992	CD2	LEU	1297	−42.036	−42.403	−41.242	24.5	C
ATOM	1993	C	LEU	1297	−41.316	−46.203	−38.086	21.11	C
ATOM	1994	O	LEU	1297	−42.353	−46.759	−37.735	21.79	O
ATOM	1995	N	GLN	1298	−40.167	−46.864	−38.265	21.59	N
ATOM	1996	CA	GLN	1298	−40.059	−48.32	−38.058	21.53	C
ATOM	1997	CB	GLN	1298	−38.663	−48.825	−38.468	22.02	C
ATOM	1998	CG	GLN	1298	−38.339	−48.635	−39.955	22.67	C
ATOM	1999	CD	GLN	1298	−36.856	−48.747	−40.277	25.11	C
ATOM	2000	OE1	GLN	1298	−36.02	−48.914	−39.385	25.42	O
ATOM	2001	NE2	GLN	1298	−36.522	−48.646	−41.566	27.23	N
ATOM	2002	C	GLN	1298	−40.305	−48.629	−36.58	21.21	C
ATOM	2003	O	GLN	1298	−40.241	−49.785	−36.143	23.95	O
ATOM	2004	N	GLY	1299	−40.571	−47.578	−35.81	19.63	N
ATOM	2005	CA	GLY	1299	−40.842	−47.739	−34.395	16.55	C
ATOM	2006	C	GLY	1299	−39.635	−47.944	−33.491	16.17	C
ATOM	2007	O	GLY	1299	−39.782	−48.481	−32.394	15.64	O
ATOM	2008	N	ARG	1300	−38.453	−47.536	−33.944	15.6	N
ATOM	2009	CA	ARG	1300	−37.23	−47.663	−33.15	14.57	C
ATOM	2010	CB	ARG	1300	−35.987	−47.624	−34.061	13.21	C
ATOM	2011	CG	ARG	1300	−35.606	−48.953	−34.696	12.55	C
ATOM	2012	CD	ARG	1300	−34.87	−48.794	−36.041	12.57	C
ATOM	2013	NE	ARG	1300	−35.26	−49.892	−36.918	14.36	N
ATOM	2014	CZ	ARG	1300	−34.748	−51.118	−36.859	15.98	C
ATOM	2015	NH1	ARG	1300	−33.792	−51.41	−35.981	17.16	N
ATOM	2016	NH2	ARG	1300	−35.251	−52.073	−37.624	12.34	N
ATOM	2017	C	ARG	1300	−37.171	−46.474	−32.196	14.89	C
ATOM	2018	O	ARG	1300	−37.633	−45.389	−32.536	14.23	O
ATOM	2019	N	ARG	1301	−36.615	−46.663	−31.006	14.09	N
ATOM	2020	CA	ARG	1301	−36.504	−45.548	−30.085	14.82	C
ATOM	2021	CB	ARG	1301	−37.522	−45.684	−28.96	15.03	C
ATOM	2022	CG	ARG	1301	−38.961	−45.614	−29.449	16.03	C
ATOM	2023	CD	ARG	1301	−39.267	−44.225	−30.023	16.85	C
ATOM	2024	NE	ARG	1301	−40.663	−44.068	−30.429	17.41	N
ATOM	2025	CZ	ARG	1301	−41.145	−44.345	−31.635	17.22	C
ATOM	2026	NH1	ARG	1301	−40.354	−44.8	−32.598	15.84	N
ATOM	2027	NH2	ARG	1301	−42.435	−44.167	−31.876	21.38	N
ATOM	2028	C	ARG	1301	−35.097	−45.495	−29.524	15.64	C
ATOM	2029	O	ARG	1301	−34.282	−46.375	−29.805	15.79	O
ATOM	2030	N	LEU	1302	−34.804	−44.455	−28.757	12.85	N
ATOM	2031	CA	LEU	1302	−33.493	−44.32	−28.141	15.61	C
ATOM	2032	CB	LEU	1302	−33.38	−42.956	−27.437	15.94	C
ATOM	2033	CG	LEU	1302	−33.299	−41.659	−28.26	12.87	C
ATOM	2034	CD1	LEU	1302	−33.581	−40.444	−27.379	14	C
ATOM	2035	CD2	LEU	1302	−31.927	−41.543	−28.882	15.39	C
ATOM	2036	C	LEU	1302	−33.409	−45.472	−27.131	16.47	C
ATOM	2037	O	LEU	1302	−34.375	−45.735	−26.408	16.43	O
ATOM	2038	N	LEU	1303	−32.276	−46.168	−27.086	16.41	N
ATOM	2039	CA	LEU	1303	−32.143	−47.309	−26.187	18.6	C
ATOM	2040	CB	LEU	1303	−31.037	−48.239	−26.727	19.3	C
ATOM	2041	CG	LEU	1303	−31.469	−48.766	−28.121	22.94	C
ATOM	2042	CD1	LEU	1303	−30.288	−49.341	−28.91	22.68	C
ATOM	2043	CD2	LEU	1303	−32.563	−49.818	−27.95	19.49	C
ATOM	2044	C	LEU	1303	−31.953	−46.931	−24.703	18.49	C
ATOM	2045	O	LEU	1303	−31.622	−45.788	−24.38	17.75	O
ATOM	2046	N	GLN	1304	−32.218	−47.876	−23.804	16.43	N
ATOM	2047	CA	GLN	1304	−32.094	−47.608	−22.376	17.47	C
ATOM	2048	CB	GLN	1304	−32.686	−48.76	−21.556	16.36	C
ATOM	2049	CG	GLN	1304	−32.738	−48.413	−20.069	20	C
ATOM	2050	CD	GLN	1304	−33.444	−49.453	−19.219	19.17	C
ATOM	2051	OE1	GLN	1304	−33.769	−49.195	−18.06	23.21	O
ATOM	2052	NE2	GLN	1304	−33.674	−50.632	−19.78	20.05	N
ATOM	2053	C	GLN	1304	−30.64	−47.385	−21.956	17.45	C
ATOM	2054	O	GLN	1304	−29.788	−48.223	−22.207	18.13	O
ATOM	2055	N	PRO	1305	−30.335	−46.245	−21.318	17.11	N
ATOM	2056	CD	PRO	1305	−31.109	−44.993	−21.246	17.67	C
ATOM	2057	CA	PRO	1305	−28.943	−46.017	−20.906	18.76	C
ATOM	2058	CB	PRO	1305	−28.948	−44.557	−20.464	17.33	C
ATOM	2059	CG	PRO	1305	−30.016	−43.951	−21.316	20.16	C
ATOM	2060	C	PRO	1305	−28.493	−46.925	−19.762	19.88	C
ATOM	2061	O	PRO	1305	−29.317	−47.39	−18.987	17.37	O
ATOM	2062	N	GLU	1306	−27.188	−47.169	−19.668	23.66	N
ATOM	2063	CA	GLU	1306	−26.634	−47.978	−18.586	28.01	C
ATOM	2064	CB	GLU	1306	−25.106	−48.108	−18.749	29.98	C
ATOM	2065	CG	GLU	1306	−24.401	−48.854	−17.605	34.82	C
ATOM	2066	CD	GLU	1306	−22.979	−49.299	−17.948	36.96	C
ATOM	2067	OE1	GLU	1306	−22.688	−50.51	−17.812	38.32	O
ATOM	2068	OE2	GLU	1306	−22.154	−48.447	−18.346	37.25	O
ATOM	2069	C	GLU	1306	−26.971	−47.185	−17.315	29.78	C
ATOM	2070	O	GLU	1306	−26.886	−45.961	−17.323	32.55	O
ATOM	2071	N	TYR	1307	−27.381	−47.857	−16.243	30.97	N
ATOM	2072	CA	TYR	1307	−27.716	−47.179	−14.971	30.01	C
ATOM	2073	CB	TYR	1307	−26.643	−46.14	−14.567	31.8	C
ATOM	2074	CG	TYR	1307	−25.18	−46.581	−14.564	33.12	C
ATOM	2075	CD1	TYR	1307	−24.21	−45.814	−15.214	33.66	C
ATOM	2076	CE1	TYR	1307	−22.866	−46.218	−15.262	34.33	C
ATOM	2077	CD2	TYR	1307	−24.771	−47.765	−13.946	33.66	C
ATOM	2078	CE2	TYR	1307	−23.429	−48.179	−13.986	34.02	C
ATOM	2079	CZ	TYR	1307	−22.484	−47.406	−14.654	35.13	C
ATOM	2080	OH	TYR	1307	−21.185	−47.867	−14.776	34.55	O
ATOM	2081	C	TYR	1307	−29.076	−46.452	−14.918	28.96	C
ATOM	2082	O	TYR	1307	−29.432	−45.895	−13.881	27.44	O
ATOM	2083	N	CYS	1308	−29.82	−46.405	−16.019	27.77	N
ATOM	2084	CA	CYS	1308	−31.126	−45.744	−15.988	25.91	C
ATOM	2085	CB	CYS	1308	−31.56	−45.362	−17.409	25.12	C
ATOM	2086	SG	CYS	1308	−33.321	−44.917	−17.596	24	S
ATOM	2087	C	CYS	1308	−32.055	−46.804	−15.414	25.06	C
ATOM	2088	O	CYS	1308	−31.968	−47.96	−15.812	23.71	O
ATOM	2089	N	PRO	1309	−32.952	−46.442	−14.477	24.93	N
ATOM	2090	CD	PRO	1309	−33.195	−45.18	−13.761	25.38	C
ATOM	2091	CA	PRO	1309	−33.817	−47.503	−13.954	23.94	C
ATOM	2092	CB	PRO	1309	−34.344	−46.928	−12.635	25.11	C
ATOM	2093	CG	PRO	1309	−33.496	−45.682	−12.386	26.23	C
ATOM	2094	C	PRO	1309	−34.961	−47.871	−14.891	23.92	C
ATOM	2095	O	PRO	1309	−35.53	−47.017	−15.567	24.15	O
ATOM	2096	N	ASP	1310	−35.291	−49.155	−14.902	22.35	N
ATOM	2097	CA	ASP	1310	−36.365	−49.695	−15.72	22.11	C
ATOM	2098	CB	ASP	1310	−36.698	−51.109	−15.24	25.28	C
ATOM	2099	CG	ASP	1310	−35.592	−52.102	−15.553	27.4	C
ATOM	2100	OD1	ASP	1310	−34.505	−51.668	−15.992	28.7	O
ATOM	2101	OD2	ASP	1310	−35.806	−53.317	−15.357	28.25	O
ATOM	2102	C	ASP	1310	−37.632	−48.84	−15.739	20.06	C
ATOM	2103	O	ASP	1310	−38.174	−48.544	−16.8	18.79	O
ATOM	2104	N	PRO	1311	−38.142	−48.451	−14.562	19.74	N
ATOM	2105	CD	PRO	1311	−37.807	−48.805	−13.174	18.73	C
ATOM	2106	CA	PRO	1311	−39.351	−47.629	−14.602	18.41	C
ATOM	2107	CB	PRO	1311	−39.741	−47.517	−13.128	17.9	C
ATOM	2108	CG	PRO	1311	−38.441	−47.673	−12.42	18.48	C
ATOM	2109	C	PRO	1311	−39.143	−46.265	−15.261	16.43	C
ATOM	2110	O	PRO	1311	−40.071	−45.71	−15.842	14.98	O
ATOM	2111	N	LEU	1312	−37.935	−45.716	−15.191	14.58	N
ATOM	2112	CA	LEU	1312	−37.73	−44.428	−15.824	13.14	C
ATOM	2113	CB	LEU	1312	−36.413	−43.778	−15.407	13.51	C
ATOM	2114	CG	LEU	1312	−36.337	−42.287	−15.754	11.5	C
ATOM	2115	CD1	LEU	1312	−37.488	−41.494	−15.114	13.78	C
ATOM	2116	CD2	LEU	1312	−35.01	−41.77	−15.254	13.81	C
ATOM	2117	C	LEU	1312	−37.74	−44.62	−17.316	13.15	C
ATOM	2118	O	LEU	1312	−38.261	−43.785	−18.051	11.21	O
ATOM	2119	N	TYR	1313	−37.162	−45.722	−17.777	14.68	N
ATOM	2120	CA	TYR	1313	−37.159	−45.972	−19.208	14.13	C
ATOM	2121	CB	TYR	1313	−36.325	−47.198	−19.573	15.38	C
ATOM	2122	CG	TYR	1313	−36.105	−47.341	−21.075	15.55	C
ATOM	2123	CD1	TYR	1313	−35.638	−46.265	−21.841	17.29	C
ATOM	2124	CE1	TYR	1313	−35.407	−46.393	−23.216	16.45	C
ATOM	2125	CD2	TYR	1313	−36.338	−48.552	−21.721	14.65	C
ATOM	2126	CE2	TYR	1313	−36.111	−48.694	−23.088	17.53	C
ATOM	2127	CZ	TYR	1313	−35.644	−47.608	−23.832	16.76	C
ATOM	2128	OH	TYR	1313	−35.418	−47.749	−25.18	17.88	O
ATOM	2129	C	TYR	1313	−38.591	−46.156	−19.687	14.31	C
ATOM	2130	O	TYR	1313	−38.936	−45.653	−20.751	14.78	O
ATOM	2131	N	GLU	1314	−39.421	−46.863	−18.913	15.45	N
ATOM	2132	CA	GLU	1314	−40.832	−47.065	−19.287	19.13	C
ATOM	2133	CB	GLU	1314	−41.636	−47.741	−18.155	21.74	C
ATOM	2134	CG	GLU	1314	−42.374	−49.072	−18.498	30.22	C
ATOM	2135	CD	GLU	1314	−43.763	−48.91	−19.15	35.3	C
ATOM	2136	OE1	GLU	1314	−43.865	−48.965	−20.4	38.8	O
ATOM	2137	OE2	GLU	1314	−44.76	−48.739	−18.411	38.41	O
ATOM	2138	C	GLU	1314	−41.414	−45.674	−19.54	17.22	C
ATOM	2139	O	GLU	1314	−42.127	−45.461	−20.52	17.96	O
ATOM	2140	N	VAL	1315	−41.111	−44.742	−18.635	15.21	N
ATOM	2141	CA	VAL	1315	−41.578	−43.359	−18.745	13.46	C
ATOM	2142	CB	VAL	1315	−40.957	−42.44	−17.656	14.51	C
ATOM	2143	CG1	VAL	1315	−41.324	−40.976	−17.926	13.39	C
ATOM	2144	CG2	VAL	1315	−41.438	−42.857	−16.274	12.16	C
ATOM	2145	C	VAL	1315	−41.138	−42.819	−20.092	14.52	C
ATOM	2146	O	VAL	1315	−41.951	−42.333	−20.887	10.37	O
ATOM	2147	N	MET	1316	−39.834	−42.921	−20.333	14.75	N
ATOM	2148	CA	MET	1316	−39.252	−42.436	−21.57	17.75	C
ATOM	2149	CB	MET	1316	−37.763	−42.803	−21.663	20.34	C
ATOM	2150	CG	MET	1316	−36.819	−42.276	−20.559	19.79	C
ATOM	2151	SD	MET	1316	−35.114	−42.567	−21.17	21.6	S
ATOM	2152	CE	MET	1316	−34.136	−42.746	−19.658	23.16	C
ATOM	2153	C	MET	1316	−39.987	−43.02	−22.77	18.51	C
ATOM	2154	O	MET	1316	−40.42	−42.274	−23.651	19.69	O
ATOM	2155	N	LEU	1317	−40.142	−44.345	−22.815	17.78	N
ATOM	2156	CA	LEU	1317	−40.829	−44.956	−23.945	17.94	C
ATOM	2157	CB	LEU	1317	−40.888	−46.473	−23.795	17.54	C
ATOM	2158	CG	LEU	1317	−39.502	−47.099	−23.888	18.27	C
ATOM	2159	CD1	LEU	1317	−39.58	−48.542	−23.434	19.06	C
ATOM	2160	CD2	LEU	1317	−38.961	−46.976	−25.315	18.11	C
ATOM	2161	C	LEU	1317	−42.226	−44.399	−24.094	19.36	C
ATOM	2162	O	LEU	1317	−42.676	−44.125	−25.206	19.4	O
ATOM	2163	N	LYS	1318	−42.917	−44.22	−22.976	18.7	N
ATOM	2164	CA	LYS	1318	−44.268	−43.685	−23.029	20.42	C
ATOM	2165	CB	LYS	1318	−44.879	−43.663	−21.625	21.8	C
ATOM	2166	CG	LYS	1318	−45.9	−44.794	−21.389	26.1	C
ATOM	2167	CD	LYS	1318	−46.046	−45.138	−19.905	26.99	C
ATOM	2168	CE	LYS	1318	−47.177	−46.138	−19.636	30.43	C
ATOM	2169	NZ	LYS	1318	−48.042	−45.717	−18.483	32.95	N
ATOM	2170	C	LYS	1318	−44.284	−42.288	−23.657	20.66	C
ATOM	2171	O	LYS	1318	−45.195	−41.942	−24.417	21.24	O
ATOM	2172	N	CYS	1319	−43.268	−41.49	−23.353	18.11	N
ATOM	2173	CA	CYS	1319	−43.188	−40.152	−23.918	16.47	C
ATOM	2174	CB	CYS	1319	−41.964	−39.408	−23.386	15.37	C
ATOM	2175	SG	CYS	1319	−42.114	−38.898	−21.672	12.54	S
ATOM	2176	C	CYS	1319	−43.074	−40.248	−25.422	18	C
ATOM	2177	O	CYS	1319	−43.512	−39.35	−26.139	15.45	O
ATOM	2178	N	TRP	1320	−42.489	−41.338	−25.911	18.62	N
ATOM	2179	CA	TRP	1320	−42.323	−41.463	−27.348	19.38	C
ATOM	2180	CB	TRP	1320	−40.935	−41.999	−27.689	17.86	C
ATOM	2181	CG	TRP	1320	−39.797	−41.256	−27.06	16.31	C
ATOM	2182	CD2	TRP	1320	−38.626	−41.84	−26.488	16.1	C
ATOM	2183	CE2	TRP	1320	−37.816	−40.782	−26.019	15.34	C
ATOM	2184	CE3	TRP	1320	−38.182	−43.162	−26.327	14.66	C
ATOM	2185	CD1	TRP	1320	−39.659	−39.902	−26.926	13.95	C
ATOM	2186	NE1	TRP	1320	−38.471	−39.609	−26.299	14.46	N
ATOM	2187	CZ2	TRP	1320	−36.587	−41.004	−25.396	16.01	C
ATOM	2188	CZ3	TRP	1320	−36.967	−43.385	−25.714	13.39	C
ATOM	2189	CH2	TRP	1320	−36.179	−42.311	−25.252	14.92	C
ATOM	2190	C	TRP	1320	−43.361	−42.293	−28.093	21.79	C
ATOM	2191	O	TRP	1320	−43.098	−42.741	−29.207	21.52	O
ATOM	2192	N	HIS	1321	−44.534	−42.501	−27.508	21.94	N
ATOM	2193	CA	HIS	1321	−45.57	−43.266	−28.198	22.23	C
ATOM	2194	CB	HIS	1321	−46.832	−43.3	−27.343	23.03	C
ATOM	2195	CG	HIS	1321	−47.853	−44.286	−27.811	24.08	C
ATOM	2196	CD2	HIS	1321	−48.285	−45.442	−27.259	24.79	C
ATOM	2197	ND1	HIS	1321	−48.555	−44.135	−28.986	25.03	N
ATOM	2198	CE1	HIS	1321	−49.378	−45.157	−29.137	24.27	C
ATOM	2199	NE2	HIS	1321	−49.233	−45.964	−28.103	26.25	N
ATOM	2200	C	HIS	1321	−45.87	−42.58	−29.538	22	C
ATOM	2201	O	HIS	1321	−45.966	−41.351	−29.602	19.88	O
ATOM	2202	N	PRO	1322	−46.016	−43.358	−30.63	21.9	N
ATOM	2203	CD	PRO	1322	−45.801	−44.808	−30.784	22.07	C
ATOM	2204	CA	PRO	1322	−46.3	−42.721	−31.926	22.49	C
ATOM	2205	CB	PRO	1322	−46.304	−43.905	−32.904	20.78	C
ATOM	2206	CG	PRO	1322	−46.567	−45.108	−32.037	20.57	C
ATOM	2207	C	PRO	1322	−47.579	−41.918	−31.963	23.4	C
ATOM	2208	O	PRO	1322	−47.778	−41.017	−32.789	22.39	O
ATOM	2209	N	LYS	1323	−48.405	−42.188	−30.98	24.92	N
ATOM	2210	CA	LYS	1323	−49.697	−41.569	−30.918	25.96	C
ATOM	2211	CB	LYS	1323	−50.574	−42.739	−30.573	28.31	C
ATOM	2212	CG	LYS	1323	−51.827	−42.832	−31.242	30.59	C
ATOM	2213	CD	LYS	1323	−51.727	−43.515	−32.566	32.35	C
ATOM	2214	CE	LYS	1323	−52.933	−44.485	−32.88	34.1	C
ATOM	2215	NZ	LYS	1323	−52.65	−45.312	−34.124	34.56	N
ATOM	2216	C	LYS	1323	−49.758	−40.444	−29.909	26.46	C
ATOM	2217	O	LYS	1323	−50.007	−40.667	−28.758	25.08	O
ATOM	2218	N	ALA	1324	−49.634	−39.187	−30.295	26.66	N
ATOM	2219	CA	ALA	1324	−49.62	−38.088	−29.304	27.92	C
ATOM	2220	CB	ALA	1324	−49.95	−36.785	−29.987	25.6	C
ATOM	2221	C	ALA	1324	−50.446	−38.245	−28.055	28.17	C
ATOM	2222	O	ALA	1324	−50.036	−37.905	−26.931	27.6	O
ATOM	2223	N	GLU	1325	−51.686	−38.71	−28.301	29.23	N
ATOM	2224	CA	GLU	1325	−52.504	−38.853	−27.162	29.6	C
ATOM	2225	CB	GLU	1325	−53.952	−38.627	−27.542	31.15	C
ATOM	2226	CG	GLU	1325	−54.643	−39.516	−28.214	34.14	C
ATOM	2227	CD	GLU	1325	−54.089	−39.858	−29.564	37.11	C
ATOM	2228	OE1	GLU	1325	−53.647	−39.081	−30.455	37.72	O
ATOM	2229	OE2	GLU	1325	−54.189	−41.064	−29.758	38.5	O
ATOM	2230	C	GLU	1325	−52.362	−40.01	−26.213	28.69	C
ATOM	2231	O	GLU	1325	−52.972	−39.871	−25.213	28.59	O
ATOM	2232	N	MET	1326	−51.468	−40.993	−26.388	28.82	N
ATOM	2233	CA	MET	1326	−51.245	−42.047	−25.396	29.26	C
ATOM	2234	CB	MET	1326	−50.955	−43.396	−26.095	32.22	C
ATOM	2235	CG	MET	1326	−52.066	−44.064	−26.984	38.68	C
ATOM	2236	SD	MET	1326	−53.888	−43.928	−26.71	45.38	S
ATOM	2237	CE	MET	1326	−54.572	−45.537	−27.685	43.56	C
ATOM	2238	C	MET	1326	−50.005	−41.619	−24.608	28	C
ATOM	2239	O	MET	1326	−49.463	−42.377	−23.802	28.97	O
ATOM	2240	N	ARG	1327	−49.56	−40.394	−24.86	25.84	N
ATOM	2241	CA	ARG	1327	−48.4	−39.855	−24.179	23.95	C
ATOM	2242	CB	ARG	1327	−47.76	−38.751	−25.018	22.84	C
ATOM	2243	CG	ARG	1327	−47.176	−39.309	−26.287	22.89	C
ATOM	2244	CD	ARG	1327	−46.312	−38.32	−27.012	21.37	C
ATOM	2245	NE	ARG	1327	−46.201	−38.754	−28.39	19.79	N
ATOM	2246	CZ	ARG	1327	−46.045	−37.934	−29.417	19	C
ATOM	2247	NH1	ARG	1327	−45.971	−36.629	−29.214	17.36	N
ATOM	2248	NH2	ARG	1327	−45.993	−38.425	−30.647	17.81	N
ATOM	2249	C	ARG	1327	−48.784	−39.293	−22.835	22.04	C
ATOM	2250	O	ARG	1327	−49.876	−38.761	−22.666	21.25	O
ATOM	2251	N	PRO	1328	−47.899	−39.441	−21.854	21.95	N
ATOM	2252	CD	PRO	1328	−46.644	−40.199	−21.724	22.8	C
ATOM	2253	CA	PRO	1328	−48.266	−38.874	−20.605	21.34	C
ATOM	2254	CB	PRO	1328	−47.249	−39.534	−19.606	21.48	C
ATOM	2255	CG	PRO	1328	−46.083	−39.682	−20.415	23.57	C
ATOM	2256	C	PRO	1328	−48.31	−37.37	−20.508	20.97	C
ATOM	2257	O	PRO	1328	−47.608	−36.705	−21.26	21.32	O
ATOM	2258	N	SER	1329	−49.152	−36.854	−19.61	20.09	N
ATOM	2259	CA	SER	1329	−49.285	−35.419	−19.361	19.4	C
ATOM	2260	CB	SER	1329	−50.552	−35.135	−18.548	19.48	C
ATOM	2261	OG	SER	1329	−50.436	−35.663	−17.232	21.56	O
ATOM	2262	C	SER	1329	−48.066	−35.09	−18.518	19.12	C
ATOM	2263	O	SER	1329	−47.354	−35.999	−18.093	18.4	O
ATOM	2264	N	PHE	1330	−47.8	−33.816	−18.259	19.43	N
ATOM	2265	CA	PHE	1330	−46.627	−33.511	−17.447	19.52	C
ATOM	2266	CB	PHE	1330	−46.166	−32.066	−17.716	17.45	C
ATOM	2267	CG	PHE	1330	−45.31	−31.927	−18.971	16.35	C
ATOM	2268	CD1	PHE	1330	−44.005	−32.427	−18.999	16.41	C
ATOM	2269	CD2	PHE	1330	−45.809	−31.319	−20.124	16.49	C
ATOM	2270	CE1	PHE	1330	−43.212	−32.32	−20.152	15.43	C
ATOM	2271	CE2	PHE	1330	−45.025	−31.21	−21.28	15.83	C
ATOM	2272	CZ	PHE	1330	−43.724	−31.711	−21.292	16.39	C
ATOM	2273	C	PHE	1330	−46.951	−33.816	−15.978	18.21	C
ATOM	2274	O	PHE	1330	−46.066	−34.112	−15.172	17.21	O
ATOM	2275	N	SER	1331	−48.247	−33.808	−15.67	21.81	N
ATOM	2276	CA	SER	1331	−48.763	−34.137	−14.341	22.73	C
ATOM	2277	CB	SER	1331	−50.291	−34.012	−14.318	25.32	C
ATOM	2278	OG	SER	1331	−50.7	−32.663	−14.454	25.24	O
ATOM	2279	C	SER	1331	−48.379	−35.581	−14.001	21.79	C
ATOM	2280	O	SER	1331	−47.698	−35.816	−12.999	21	O
ATOM	2281	N	GLU	1332	−48.824	−36.533	−14.831	23.52	N
ATOM	2282	CA	GLU	1332	−48.512	−37.95	−14.628	24.89	C
ATOM	2283	CB	GLU	1332	−49.171	−38.856	−15.729	29.5	C
ATOM	2284	CG	GLU	1332	−48.682	−38.665	−17.21	37.98	C
ATOM	2285	CD	GLU	1332	−49.432	−39.536	−18.28	43.96	C
ATOM	2286	OE1	GLU	1332	−50.339	−40.303	−17.982	45.97	O
ATOM	2287	OE2	GLU	1332	−49.132	−39.46	−19.444	47.85	O
ATOM	2288	C	GLU	1332	−46.981	−38.047	−14.635	22.38	C
ATOM	2289	O	GLU	1332	−46.393	−38.787	−13.855	23.87	O
ATOM	2290	N	LEU	1333	−46.327	−37.261	−15.481	20.18	N
ATOM	2291	CA	LEU	1333	−44.875	−37.295	−15.507	18.89	C
ATOM	2292	CB	LEU	1333	−44.318	−36.39	−16.622	20.31	C
ATOM	2293	CG	LEU	1333	−43.658	−37.081	−17.836	19.84	C
ATOM	2294	CD1	LEU	1333	−44.137	−38.513	−17.983	21.18	C
ATOM	2295	CD2	LEU	1333	−43.963	−36.29	−19.091	19.76	C
ATOM	2296	C	LEU	1333	−44.292	−36.926	−14.138	18.06	C
ATOM	2297	O	LEU	1333	−43.457	−37.67	−13.629	17.4	O
ATOM	2298	N	VAL	1334	−44.712	−35.829	−13.5	16.42	N
ATOM	2299	CA	VAL	1334	−44.101	−35.581	−12.195	14.44	C
ATOM	2300	CB	VAL	1334	−44.155	−34.045	−11.723	14.47	C
ATOM	2301	CG1	VAL	1334	−44.851	−33.176	−12.744	12.5	C
ATOM	2302	CG2	VAL	1334	−44.749	−33.899	−10.336	13.35	C
ATOM	2303	C	VAL	1334	−44.503	−36.562	−11.069	15.52	C
ATOM	2304	O	VAL	1334	−43.676	−36.818	−10.2	15.12	O
ATOM	2305	N	SER	1335	−45.698	−37.161	−11.059	15.65	N
ATOM	2306	CA	SER	1335	−45.927	−38.104	−9.947	17.61	C
ATOM	2307	CB	SER	1335	−47.396	−38.541	−9.762	19.13	C
ATOM	2308	OG	SER	1335	−48.28	−37.995	−10.714	21.27	O
ATOM	2309	C	SER	1335	−45.104	−39.319	−10.16	16.26	C
ATOM	2310	O	SER	1335	−44.45	−39.844	−9.265	15.18	O
ATOM	2311	N	ARG	1336	−45.057	−39.739	−11.396	16.43	N
ATOM	2312	CA	ARG	1336	−44.326	−40.942	−11.638	19.04	C
ATOM	2313	CB	ARG	1336	−44.461	−41.125	−13.056	23.11	C
ATOM	2314	CG	ARG	1336	−44.507	−42.397	−13.484	26.63	C
ATOM	2315	CD	ARG	1336	−45.813	−42.346	−14.321	29.99	C
ATOM	2316	NE	ARG	1336	−45.664	−41.73	−15.664	32.06	N
ATOM	2317	CZ	ARG	1336	−45.635	−42.334	−16.856	31.45	C
ATOM	2318	NH1	ARG	1336	−45.722	−43.613	−17.103	33.52	N
ATOM	2319	NH2	ARG	1336	−45.423	−41.616	−17.91	31.66	N
ATOM	2320	C	ARG	1336	−42.905	−40.758	−11.309	20.68	C
ATOM	2321	O	ARG	1336	−42.324	−41.569	−10.577	20.06	O
ATOM	2322	N	ILE	1337	−42.301	−39.726	−11.874	19.97	N
ATOM	2323	CA	ILE	1337	−40.913	−39.442	−11.613	19.1	C
ATOM	2324	CB	ILE	1337	−40.414	−38.268	−12.509	19.3	C
ATOM	2325	CG2	ILE	1337	−38.941	−37.989	−12.218	16.69	C
ATOM	2326	CG1	ILE	1337	−40.561	−38.655	−13.993	18.86	C
ATOM	2327	CD	ILE	1337	−40.445	−37.496	−14.979	19.36	C
ATOM	2328	C	ILE	1337	−40.602	−39.176	−10.112	18.87	C
ATOM	2329	O	ILE	1337	−39.518	−39.543	−9.663	18.78	O
ATOM	2330	N	SER	1338	−41.51	−38.572	−9.332	19.34	N
ATOM	2331	CA	SER	1338	−41.229	−38.346	−7.892	20.11	C
ATOM	2332	CB	SER	1338	−42.325	−37.541	−7.183	20.76	C
ATOM	2333	OG	SER	1338	−42.75	−36.416	−7.912	24.23	O
ATOM	2334	C	SER	1338	−41.226	−39.708	−7.224	18.9	C
ATOM	2335	O	SER	1338	−40.459	−39.975	−6.294	18.76	O
ATOM	2336	N	ALA	1339	−42.151	−40.536	−7.701	18.39	N
ATOM	2337	CA	ALA	1339	−42.345	−41.896	−7.23	18.01	C
ATOM	2338	CB	ALA	1339	−43.48	−42.548	−8.012	17.08	C
ATOM	2339	C	ALA	1339	−41.057	−42.677	−7.427	19.89	C
ATOM	2340	O	ALA	1339	−40.581	−43.341	−6.509	22.03	O
ATOM	2341	N	ILE	1340	−40.492	−42.583	−8.63	20.82	N
ATOM	2342	CA	ILE	1340	−39.253	−43.275	−8.976	21.34	C
ATOM	2343	CB	ILE	1340	−39.016	−43.206	−10.523	22.55	C
ATOM	2344	CG2	ILE	1340	−37.663	−43.825	−10.888	23.59	C
ATOM	2345	CG1	ILE	1340	−40.11	−43.985	−11.294	25.81	C
ATOM	2346	CD	ILE	1340	−41.497	−44.205	−10.626	29.71	C
ATOM	2347	C	ILE	1340	−38.07	−42.658	−8.21	21.59	C
ATOM	2348	O	ILE	1340	−37.153	−43.365	−7.79	18.89	O
ATOM	2349	N	PHE	1341	−38.127	−41.339	−8.007	22.51	N
ATOM	2350	CA	PHE	1341	−37.084	−40.571	−7.312	23.12	C
ATOM	2351	CB	PHE	1341	−37.366	−39.076	−7.448	21.04	C
ATOM	2352	CG	PHE	1341	−36.369	−38.216	−6.741	18.35	C
ATOM	2353	CD1	PHE	1341	−35.128	−37.965	−7.31	17.9	C
ATOM	2354	CD2	PHE	1341	−36.658	−37.671	−5.494	18.97	C
ATOM	2355	CE1	PHE	1341	−34.186	−37.181	−6.652	18.18	C
ATOM	2356	CE2	PHE	1341	−35.723	−36.886	−4.825	18.68	C
ATOM	2357	CZ	PHE	1341	−34.479	−36.64	−5.411	17.63	C
ATOM	2358	C	PHE	1341	−36.941	−40.905	−5.837	25.96	C
ATOM	2359	O	PHE	1341	−35.867	−41.019	−5.279	24.76	O
ATOM	2360	N	SER	1342	−38.107	−41.03	−5.204	28.8	N
ATOM	2361	CA	SER	1342	−38.188	−41.346	−3.8	33.62	C
ATOM	2362	CB	SER	1342	−39.589	−41.431	−3.385	34.36	C
ATOM	2363	OG	SER	1342	−39.895	−40.25	−2.726	37.13	O
ATOM	2364	C	SER	1342	−37.681	−42.675	−3.572	36.29	C
ATOM	2365	O	SER	1342	−36.913	−42.931	−2.739	36.94	O
ATOM	2366	N	THR	1343	−38.255	−43.619	−4.223	38.79	N
ATOM	2367	CA	THR	1343	−38.007	−45.046	−4.101	42.78	C
ATOM	2368	CB	THR	1343	−38.082	−45.62	−5.347	43.14	C
ATOM	2369	OG1	THR	1343	−37.499	−44.974	−6.327	45.03	O
ATOM	2370	CG2	THR	1343	−39.089	−46.338	−5.894	42.28	C
ATOM	2371	C	THR	1343	−36.447	−45.187	−4.538	44.77	C
ATOM	2372	O	THR	1343	−36.291	−46.076	−5.408	45.85	O
ATOM	2373	N	PHE	1344	−35.516	−44.538	−3.915	46.03	N
ATOM	2374	CA	PHE	1344	−34.193	−44.422	−4.598	47.65	C
ATOM	2375	CB	PHE	1344	−34.478	−43.644	−5.88	48.08	C
ATOM	2376	CG	PHE	1344	−33.55	−44.017	−6.982	46.41	C
ATOM	2377	CD1	PHE	1344	−34.002	−44.165	−8.282	45.61	C
ATOM	2378	CD2	PHE	1344	−32.205	−44.245	−6.71	45.61	C
ATOM	2379	CE1	PHE	1344	−33.134	−44.529	−9.297	45.07	C
ATOM	2380	CE2	PHE	1344	−31.332	−44.609	−7.721	44.04	C
ATOM	2381	CZ	PHE	1344	−31.798	−44.75	−9.016	44.55	C
ATOM	2382	C	PHE	1344	−33.357	−43.599	−3.602	49.92	C
ATOM	2383	O	PHE	1344	−33.488	−42.376	−3.477	51.55	O
ATOM	2384	N	ILE	1345	−32.396	−44.351	−3.076	51.14	N
ATOM	2385	CA	ILE	1345	−31.802	−43.901	−1.816	51.51	C
ATOM	2386	CB	ILE	1345	−30.772	−44.991	−1.309	51.18	C
ATOM	2387	CG2	ILE	1345	−29.756	−44.342	−0.398	49.1	C
ATOM	2388	CG1	ILE	1345	−31.473	−46.176	−0.598	51.89	C
ATOM	2389	CD	ILE	1345	−32.276	−45.84	0.682	51.67	C
ATOM	2390	C	ILE	1345	−31.323	−42.476	−1.708	52.76	C
ATOM	2391	O	ILE	1345	−30.098	−42.321	−2.071	51.79	O
ATOM	2392	N	GLY	1346	−32.172	−41.554	−1.404	52.64	N
ATOM	2393	CA	GLY	1346	−31.848	−40.112	−1.194	53.2	C
ATOM	2394	C	GLY	1346	−30.478	−40.01	−0.552	53.8	C
ATOM	2395	OT1	GLY	1346	−30.041	−41.005	0.076	53.54	O
ATOM	2396	OXT	GLY	1346	−29.834	−38.946	−0.669	53.44	O
TER	2397		GLY	346
HETATM	2398	C18	M97	1	−28.421	−19.33	−23.501	20.4	C
HETATM	2399	C17	M97	1	−28.05	−18.355	−24.625	22.33	C
HETATM	2400	C16	M97	1	−28.763	−17.001	−24.516	20.81	C
HETATM	2401	C15	M97	1	−28.583	−16.465	−23.104	21.33	C
HETATM	2402	C23	M97	1	−28.693	−15.112	−22.776	21.71	C
HETATM	2403	C22	M97	1	−28.525	−14.706	−21.456	23.83	C
HETATM	2404	C21	M97	1	−28.245	−15.591	−20.427	21.68	C
HETATM	2405	C20	M97	1	−28.13	−16.961	−20.742	19.42	C
HETATM	2406	C19	M97	1	−28.303	−17.326	−22.047	20.56	C
HETATM	2407	N3	M97	1	−28.175	−18.712	−22.175	21.67	N
HETATM	2408	C3	M97	1	−27.916	−19.167	−20.955	17.66	C
HETATM	2409	C2	M97	1	−27.883	−18.147	−20.082	18.09	C
HETATM	2410	C6	M97	1	−27.568	−18.343	−18.599	16.61	C
HETATM	2411	C8	M97	1	−28.539	−17.7	−17.605	18.67	C
HETATM	2412	O2	M97	1	−29.767	−17.736	−17.726	19.12	O
HETATM	2413	N2	M97	1	−27.899	−17.101	−16.607	17.51	N
HETATM	2414	C7	M97	1	−26.579	−17.132	−16.804	17.32	C
HETATM	2415	O1	M97	1	−25.745	−16.754	−15.985	18.84	O
HETATM	2416	C1	M97	1	−26.241	−17.726	−18.172	16.61	C
HETATM	2417	C4	M97	1	−25.08	−18.719	−18.217	18.4	C
HETATM	2418	C10	M97	1	−24.374	−18.961	−19.389	16.93	C
HETATM	2419	C11	M97	1	−24.497	−18.49	−20.685	19.11	C
HETATM	2420	C12	M97	1	−23.573	−18.885	−21.641	19.55	C
HETATM	2421	C13	M97	1	−22.536	−19.749	−21.281	19.99	C
HETATM	2422	C14	M97	1	−22.425	−20.218	−19.981	18.84	C
HETATM	2423	C9	M97	1	−23.349	−19.826	−19.016	18.71	C
HETATM	2424	N1	M97	1	−23.479	−20.067	−17.715	17.96	N
HETATM	2425	C5	M97	1	−24.523	−19.402	−17.22	18.43	C
HETATM	2426	O	HOH	1	−29.733	−45.042	−32.394	23.71	O
HETATM	2427	O	HOH	11	−41.978	−18.659	−8.604	33.69	O
HETATM	2428	O	HOH	19	−14.344	−9.842	−22.4	23.99	O
HETATM	2429	O	HOH	21	−43.049	−29.657	−28.643	33.17	O
HETATM	2430	O	HOH	22	−27.163	−0.128	−19.346	37.35	O
HETATM	2431	O	HOH	23	−11.942	−12.723	−13.277	40.63	O
HETATM	2432	O	HOH	25	−33.037	−32.588	−8.01	24.8	O
HETATM	2433	O	HOH	26	−25.627	−43.198	−8.776	24.3	O
HETATM	2434	O	HOH	29	−46.913	−39.523	−36.653	28	O
HETATM	2435	O	HOH	30	−30.849	−12.281	−30.69	21.24	O
HETATM	2436	O	HOH	31	−34.444	−22.254	−29.224	14.19	O
HETATM	2437	O	HOH	33	−50.753	−27.924	−27.093	26.45	O
HETATM	2438	O	HOH	34	−27.308	−38.76	−4.252	35.8	O
HETATM	2439	O	HOH	38	−16.629	−37.696	−14.044	24.11	O
HETATM	2440	O	HOH	43	−37.896	−19.153	−11.112	20.78	O
HETATM	2441	O	HOH	45	−40.294	3.592	−21.002	46.87	O
HETATM	2442	O	HOH	47	−19.865	−18.501	−9.486	42.76	O
HETATM	2443	O	HOH	49	−36.45	−37.969	−30.939	15.37	O
HETATM	2444	O	HOH	50	−29.817	−27.464	−2.853	38.04	O
HETATM	2445	O	HOH	51	−35.913	−29.539	−28.732	15.99	O
HETATM	2446	O	HOH	55	−35.063	−49.437	−29.855	33.2	O
HETATM	2447	O	HOH	63	−17.108	−3.162	−15.949	31.66	O
HETATM	2448	O	HOH	65	−36.185	−14.548	−12.6	24.69	O
HETATM	2449	O	HOH	66	−37.492	−51.897	−39.152	22.65	O
HETATM	2450	O	HOH	74	−21.385	−26.942	−16.186	40.62	O
HETATM	2451	O	HOH	77	−32.568	−48.216	−6.703	47.5	O
HETATM	2452	O	HOH	78	−40.231	−18.222	−13.28	21.62	O
HETATM	2453	O	HOH	80	−49.359	−48.928	−27.562	28.98	O
HETATM	2454	O	HOH	81	−50.28	−38.693	−33.409	34.22	O
HETATM	2455	O	HOH	89	−48.667	−5.949	−17.295	35.77	O
HETATM	2456	O	HOH	90	−43.326	−45.18	−33.961	31.65	O
HETATM	2457	O	HOH	93	−29.409	−47.043	−11.708	31.44	O
HETATM	2458	O	HOH	95	−10.204	−6.223	−17.26	18.06	O
HETATM	2459	O	HOH	96	−31.221	−3.393	−19.944	22.32	O
HETATM	2460	O	HOH	98	−36.257	−17.223	−13.142	20.12	O
HETATM	2461	O	HOH	99	−33.234	−50.471	−24.546	20.45	O
HETATM	2462	O	HOH	107	−46.234	−2.234	−15.955	20.16	O
HETATM	2463	O	HOH	113	−27.073	−24.228	−30.542	26.4	O
HETATM	2464	O	HOH	119	−40.31	−29.4	−26.968	12.91	O
HETATM	2465	O	HOH	122	−27.616	−41.457	−42.019	25.56	O
HETATM	2466	O	HOH	123	−37.721	−50.822	−18.769	37.76	O
HETATM	2467	O	HOH	128	−36.977	−26.973	−6.723	47.18	O
HETATM	2468	O	HOH	132	−46.704	−25.042	−34.234	25.99	O
HETATM	2469	O	HOH	135	−27.544	−24.241	−23.965	30.92	O
HETATM	2470	O	HOH	140	−37.425	3.24	−35.007	18.34	O
HETATM	2471	O	HOH	143	−20.008	−12.815	−30.386	40.51	O
HETATM	2472	O	HOH	147	−14.407	−15.827	−13.914	30.48	O
HETATM	2473	O	HOH	151	−49.199	−31.854	−19.993	33.45	O
HETATM	2474	O	HOH	152	−33.758	−21.539	−26.003	45.57	O
HETATM	2475	O	HOH	156	−21.439	−40.205	−36.699	50.64	O
HETATM	2476	O	HOH	160	−27.226	−43.392	−33.693	25.08	O
HETATM	2477	O	HOH	164	−25.061	−26.966	−24.102	22.64	O
HETATM	2478	O	HOH	167	−39.626	−16.67	−10.802	34.02	O
HETATM	2479	O	HOH	171	−19.142	−1.168	−17.551	32.21	O
HETATM	2480	O	HOH	172	−30.803	−0.387	−20.702	32.83	O
HETATM	2481	O	HOH	176	−54.115	−25.794	−25.837	53.46	O
HETATM	2482	O	HOH	181	−23.869	−36.686	−5.557	40.21	O
HETATM	2483	O	HOH	184	−29.269	−30.565	−24.802	22.28	O
HETATM	2484	O	HOH	189	−50.2	−45.277	−19.345	38.58	O
HETATM	2485	O	HOH	191	−21.65	−29.789	−23.813	31.45	O
HETATM	2486	O	HOH	192	−23.062	−24.401	−6.237	35.26	O
HETATM	2487	O	HOH	194	−25.27	1.306	−15.454	29.8	O
HETATM	2488	O	HOH	195	−28.159	−42.387	−7.202	22.48	O
HETATM	2489	O	HOH	199	−13.955	−14.842	−16.709	32.78	O
HETATM	2490	O	HOH	200	−36.82	−41.718	0.531	50.12	O
HETATM	2491	O	HOH	201	−28.644	−20.12	−36.964	18.87	O
HETATM	2492	O	HOH	203	−50.477	−32.049	−17.177	24.64	O
HETATM	2493	O	HOH	216	−39.142	−22.788	−29.507	33.97	O
HETATM	2494	O	HOH	219	−47.47	−15.035	−20.201	35.71	O
HETATM	2495	O	HOH	224	−46.506	−27.482	−23.402	21.71	O
HETATM	2496	O	HOH	234	−41.895	−31.848	−31.831	20.74	O
HETATM	2497	O	HOH	235	−26.441	−19.233	−9.527	33.45	O
HETATM	2498	O	HOH	239	−37.357	−36.383	−42.714	31.76	O
HETATM	2499	O	HOH	240	−31.471	−4.986	0.652	22.91	O
HETATM	2500	O	HOH	243	−28.65	−42.512	−29.641	22.84	O
HETATM	2501	O	HOH	244	−36.603	−42.277	−29.106	19.94	O
HETATM	2502	O	HOH	248	−29.027	−13.664	−10.124	31.23	O
HETATM	2503	O	HOH	249	−40.094	−50.827	−15.065	43.7	O
HETATM	2504	O	HOH	251	−23.436	−42.81	−11.982	46.35	O
HETATM	2505	O	HOH	252	−31.443	−12.916	−9.468	43.08	O
HETATM	2506	O	HOH	253	−45.124	−10.841	−28.548	57.83	O
HETATM	2507	O	HOH	256	−47.989	−21.853	−27.175	28.06	O
HETATM	2508	O	HOH	257	−44.346	−21.809	−29.799	45.06	O
HETATM	2509	O	HOH	258	−48.882	−41.587	−10.969	52.61	O
HETATM	2510	O	HOH	259	−29.049	−34.816	−39.703	52.2	O
HETATM	2511	O	HOH	267	−36.421	1.247	−12.805	36	O
HETATM	2512	O	HOH	279	−29.355	−45.223	−28.378	33.41	O
HETATM	2513	O	HOH	282	−42.248	−20.932	−28.066	29.16	O
HETATM	2514	O	HOH	283	−33.773	−4.7	2.104	49.74	O
HETATM	2515	O	HOH	285	−21.851	−38.325	−6.435	31.66	O
HETATM	2516	O	HOH	287	−26.26	−43.568	−28.371	25.76	O
HETATM	2517	O	HOH	291	−22.18	−11.552	−29.799	43.2	O
HETATM	2518	O	HOH	293	−48.423	−37.306	−38.97	42.54	O
HETATM	2519	O	HOH	298	−24.451	−45.031	−29.768	43.48	O
HETATM	2520	O	HOH	340	−24.526	−9.586	−25.61	15.08	O
HETATM	2521	O	HOH	342	−27.622	−21.226	−29.674	29.04	O
HETATM	2522	O	HOH	348	−40.859	−30.744	−29.704	25.01	O
HETATM	2523	O	HOH	352	−32.508	−49.493	−33.945	34.9	O
HETATM	2524	O	HOH	356	−18.731	−15.159	−30.315	33.75	O
HETATM	2525	O	HOH	358	−34.046	−54.592	−37.088	20.7	O
HETATM	2526	O	HOH	360	−31.208	−32.444	−33.609	20.04	O
HETATM	2527	O	HOH	363	−30.618	−33.523	−8.002	25.2	O
HETATM	2528	O	HOH	365	−14.406	−16.156	−24.124	39.38	O
HETATM	2529	O	HOH	373	−38.591	−25.485	−32.288	30.06	O
HETATM	2530	O	HOH	377	−48.553	−17.92	−12.222	37.86	O
HETATM	2531	O	HOH	380	−36.774	−36.981	−33.348	22.77	O
HETATM	2532	O	HOH	381	−24.808	−41.352	−28.041	28	O
HETATM	2533	O	HOH	388	−24.856	−17.892	−7.816	27.87	O
HETATM	2534	O	HOH	389	−26.781	−11.754	−6.859	37.48	O
HETATM	2535	O	HOH	390	−26.698	−26.085	−28.658	43.43	O
HETATM	2536	O	HOH	396	−39.993	−0.244	−8.176	44.09	O
HETATM	2537	O	HOH	399	−22.572	−23.838	−19.334	35.76	O
HETATM	2538	O	HOH	408	−39.893	−27.132	−7.517	28.65	O
HETATM	2539	O	HOH	410	−51.294	−26.589	−30.152	36.54	O
HETATM	2540	O	HOH	416	−27.033	−4.323	−31.352	40.18	O
HETATM	2541	O	HOH	418	−32.288	−20.615	−47.531	46.09	O
HETATM	2542	O	HOH	420	−21.59	−20.992	−15.896	47.82	O
HETATM	2543	O	HOH	421	−33.255	−1.487	−28.193	15.19	O
HETATM	2544	O	HOH	422	−33.862	−14.639	−36.562	39.85	O
HETATM	2545	O	HOH	423	−24.055	−22.398	−28.638	38.93	O
HETATM	2546	O	HOH	424	−23.254	−24.538	−37.285	41.97	O
HETATM	2547	O	HOH	425	−27.795	−30.29	−26.912	29.38	O
HETATM	2548	O	HOH	426	−24.824	−29.707	−29.385	39.8	O
HETATM	2549	O	HOH	427	−42.553	−46.3	−15.041	21.97	O

The electronic representation of the c-Met structure was then displayed on a computer screen for visual inspection and analysis. All important motifs involved in c-Met ligand recognition and binding were identified, including those described above.

A three dimensional graphical representation of the c-Met binding pocket was then generated as part of an electronic representation of the ligand bound binding site. In an embodiment, the electronic representation of the binding pocket contains the coordinates of c-Met residues up to 6 Å from every atom of the ligand. This model contains twenty three amino acid residues (Table 4).

The structure coordinates of amino acid residues that constitute the binding pocket define the chemical environment of the ligand binding site, and thereby are useful in designing compounds that may interact with those residues.

The binding site amino acid residues are key residues for ligand binding. Alternatively, the binding site amino acid residues may be residues that are spatially related in the definition of the three-dimensional shape of the binding pocket. The amino acid residues may be contiguous or non-contiguous in the primary sequence.

The c-Met inhibition model is formed by three-dimensional coordinates of amino acid residues selected from the X-ray crystallographic structure of the complex of c-Met bound to the selective c-Met inhibitor as explained above. This model is mostly hydrophobic in nature. The only exception is c-Met hinge binding motif, which corresponds to the backbone amide of M1160 and the backbone carbonyl of P115.

Computer programs are also employed to estimate the attraction, repulsion, and steric hindrance of the ligand to the kinase inhibition model. Generally the tighter the fit between the inhibitor and c-Met at the molecular level and atomic level (e.g., the lower the steric hindrance, and/or the greater the attractive force), the more potent the potential drug will be because these properties are consistent with a tighter-binding constant.

To increase the likelihood of finding a suitable ligand, a set of seed molecules has been compiled. This set contains fragments that are modified to result in a molecule that tightly binds the model.

Alternatively, a potential ligand is obtained by screening a random chemical library. A ligand selected in this manner is then systematically modified by computer-modeling programs until one or more promising potential ligands are identified. Such analysis has been shown to be effective in the development of HIV protease inhibitors (Lam et al., Science 263:380-384 (1994); Wlodawer et al., Ann. Rev. Biochem. 62:543-585 (1993); Appelt, Perspectives in Drug Discovery and Design 1:23-48 (1993); Erickson, Perspectives in Drug Discovery and Design 1: 109-128 (1993). Such computer modeling allows the selection of a finite number of rational chemical modifications, as opposed to the countless number of essentially random chemical modifications that could be made, any of which any one might lead to a useful drug. Each chemical modification requires additional chemical steps, which while being reasonable for the synthesis of a finite number of compounds, quickly becomes overwhelming if all possible modifications needed to be synthesized. Thus, through the use of the structure coordinates disclosed herein and computer modeling, a large number of these compounds are rapidly screened on the computer monitor screen, and a few likely candidates are determined or identified without the laborious synthesis of untold numbers of compounds.

Once a potential ligand (agonist or antagonist) is identified, it is either selected from commercial libraries of compounds or synthesized de novo. As mentioned above, the de novo synthesis of one or even a relatively small group of specific compounds is reasonable in the art of drug design.

For all of the drug design strategies described herein further refinements to the structure of the drug are generally necessary and are made by the successive iterations of any and/or all of the steps provided by the aforementioned strategies.

Another aspect of the invention involves using the structure coordinates generated from the c-Met/inhibitor complex to generate a three-dimensional shape. This is achieved through the use of commercially available software that is capable of generating three-dimensional graphical representations of molecules or portions thereof from a set of structure coordinates.

The variations in coordinates discussed above may be generated because of mathematical manipulations of the c-Met/inhibitor complex structure coordinates. For example, the structure coordinates set forth in Table 1A or Table 1B could be manipulated by crystallographic permutations of the structure coordinates, fractionalization of the structure coordinates, integer additions or subtractions to sets of the structure coordinates, or combinations thereof.

Alternatively, modifications in the crystal structure due to mutations, additions, substitutions, and/or deletions of amino acids, or other changes in any of the components that make up the crystal also account for variations in structure coordinates. If such variations are within an acceptable standard error, as compared to the original coordinates, the resulting three-dimensional shape is considered to be the same. Thus, for example, a ligand that bound to the binding pocket of the c-Met kinase domain is also expected to bind to another binding pocket whose structure coordinates, when compared to those described, have a root mean square difference of equal to or less than about 1.5 Å, more preferably less than about 1.0 Å, and even more preferably, less than about 0.5 Å, from the backbone atoms.

Various computational analyses can be performed to analyze c-Met or other kinases or the kinase domains thereof. Such analyses may be carried out through the use of known software applications, such as ProMod, SWISS-MODEL (Swiss Institute of Bioinformatics), and the Molecular Similarity application of QUANTA (Accelrys, Inc., San Diego, Calif.). Programs, such as QUANTA permit comparisons between different structures, different conformations of the same structure, and different parts of the same structure. Comparison of structures using such computer software may involve the following steps: 1) loading the structures to be compared; 2) defining the atom equivalencies in the structures; 3) performing a fitting operation; and 4) analyzing the results. Each structure is identified by a name. One structure is identified as the target (i.e., the fixed structure) and all remaining structures are working structures (i.e., moving structures). Since atom equivalency with QUANTA is defined by user input, for the purpose of this invention, applicants define equivalent atoms as protein backbone atoms (N, Cα, C, and O) for all conserved residues between the two structures being compared. Only rigid fitting operations are also considered. When a rigid fitting method is used, the working structure is translated and rotated to obtain an optimum fit with the target structure. The fitting operation uses an algorithm that computes the optimum translation and rotation to be applied to the moving structure, such that the root mean square difference of the fit over the specified pairs of equivalent atoms is an absolute minimum. This number, given in angstroms (Å), is reported by software applications, such as QUANTA.

For the purpose of this invention, any c-Met molecule or molecular complex or kinase domain thereof that has a root mean square deviation of conserved residue backbone atoms (N, Cα, C, O) of less than about 1.5 Å, more preferably less than about 1.0 Å, and even more preferably less than about 0.5 Å, when superimposed on the relevant backbone atoms described by structure coordinates listed in Table 1A or Table 1B are considered equivalent.

The term “root mean square deviation” means the square root of the arithmetic mean of the squares of the deviations from the mean. It is a way to express the deviation or variation from a trend or object. For purposes of this invention, the “root mean square deviation” defines the variation in the backbone of a protein from the backbone of the c-Met or other kinases of the invention or the kinase domain portion thereof, as defined by the structure coordinates described herein.

3. Use of the c-Met Inhibition Model to Derive an Inhibition Model for Another Kinase

The c-Met inhibition model can be modified to construct a model for the inhibition of another kinase. This method is known as homology modeling. The model for the new kinase can be generated by replacing electronic representations of particular residues of the c-Met inhibition model with electronic representations of corresponding residues of the new kinase.

The new kinase is a kinase with a difference of at least one amino acid residue from the wild-type human c-Met. The another kinase can be a mutant c-Met protein, a paralog of c-Met protein, a family member or a related sequence (homologous) of c-Met, a kinase with at least 10% amino acid sequence identity or homology to c-Met, or a kinase with at least 30% nucleotide or amino acid sequence similarity to wild type c-Met.

There are several applications for this methodology.

3.1. Methodology to Derive an Inhibition Model for Another Kinase from the c-Met Inhibition Model

Typically, construction of such an inhibition model involves: performing sequence alignment between the amino acid sequence of other kinase against the amino acid sequence of c-Met, identifying conserved amino acid residues between c-Met and the kinase of interest, generating atomic coordinates of all conserved amino acids in the other kinase from the electronic representation of c-Met residues; generating conformations for the structurally variable residues in the other kinase; replacing the non-conserved residues of c-Met with residues from the other kinase structure; building side chain conformations; and refining and/or evaluating the structure.

This method is known as homology modeling. The method is accomplished using commercially available software. Non-limiting examples of such programs are MOE (CCG, Montreal, Canada), ICM (Molsoft, La Jolla, Calif.), and Insight II/Discover (Accelrys, Inc., San Diego, Calif.).

The success of homology models depends on the sequence alignment. Four motifs were selected to guide such an alignment: P-loop, salt-bridge, DFG-motif and the A-loop.

The geometry of the residues forming the kinase hinge is very important and differs from one kinase to the other. The hinge also assumes different conformations depending on the bound ligand. To optimize the shape and geometry of the model's binding pocket, fragments from known inhibitors were used. Those fragments were modified by attaching atomic groups suitable to complement the pocket.

Once the inhibition model is built, a three dimensional graphical representation of the binding pockets of c-Met paralogs, significant c-Met homologs, and/or other kinases is generated. The new kinase inhibition model is defined as an electronic representation of residues corresponding to the c-Met inhibition model.

The resulting pair-wise comparison of binding pocket residues provides a basis for evaluating similarities and differences in polarity and hydrophobicity, and therefore differences in the chemical environment, of the binding pockets of various kinases by using the inhibition model. This inhibitor model is important for drug design, e.g. designing inhibitors of c-Met paralogs, significant c-Met homologs, and/or other kinases. The kinase, for which an inhibitor is designed using the inhibitor model, can be any known kinase.

3.2. Similarity Assessment Method for Comparing Inhibition Models Derived for a Series of New Kinase Proteins.

To assess the similarity of inhibition models, a weighting system is applied. In one embodiment of the invention, residues are assigned the following weights:

- 2 critical for ligand binding residues
- 1 residue side chain lining the inhibition model
- 0.5 backbone atoms part of the inhibition model additions, deletions and changes in backbone flexibility, lack of residue
- −1 alignment dramatic changes in size and/or polarity inside the inhibition model, lack of
- −2 alignment of critical residues

The following illustrative examples demonstrate that the highest similarity assessment value of 25 is obtained when the system is applied to the c-Met protein. All other proteins are expected to score below the maximum of 25.

TABLE 2

(SEQ ID NOs: 11, 3, 4, 5, 6, 7, 8 and 9, respectively)

	C-MET		AXL		FLT-3		cKIT
	(SEQ ID		(SEQ ID		(SEQ ID		(SEQ ID
PROTEIN	NO: 11)	weight	NO: 3)	weight	NO: 4)	weight	NO: 5)	weight

	I_1084	2	L_542	1	L_616	1	L_595	1
	G_1085	2	G_543	2	G_617	2	G_596	2
	F_1089	2	F_547	2	F_621	2	F_600	2
	V_1092	2	V_550	2	V_624	2	V_603	2
	A_1108	1	A_565	1	A_642	1	A_621	1
	V_1109b	0.5	V_566	0.5	V_643	0.5	V_1109	0.5
	K_1110b	0.5	K_567	0.5	K_644	0.5	K_623	0.5
	L_1140	1	M_598	0.5	V_675	0.5	V_654	0.5
	V_1155	1	V_618	1	L_689	0.5	I_669	0.5
	L_1157	1	L_620	1	F_691	0.5	T_670	−2
	P_1158	1	P_621	1	E_692	−1	E_671	−1
	Y_1159b	0.5	F_622	0.5	Y_693	0.5	Y_672	0.5
	M_1160	1	M_623	1	C_694	0.5	C_673	0.5
	K_1161b	0.5	K_624	0.5	C_695	0.5	C_674	0.5
	H_1162b	0.5	H_625	0.5	Y_696	0.5	Y_675	0.5
	G_1163	0.5	G_626	0.5	G_697	0.5	G_676	0.5
	D_1164	1	D_627	1	D_698	1	D_677	1
	M_1211	1	M_679	1	L_818	0.5	L_799	0.5
	A_1221	1	A_689	1	C_828	0.5	C_809	0.5
	D_1222	1	D_690	1	D_629	1	D_810	1
	F_1223	1	F_691	1	F_630	1	F_811	1
	A_1226	1	S_694	−1	A_833	1	A_814	1
	R_1227	2	K_695	1	R_834	2	R_815	2
Similarity		25		20.5		19		17
assessment
value

	IRK		cFMS		cABL		PIM1
	(SEQ ID		(SEQ ID		(SEQ ID		(SEQ ID
PROTEIN	NO: 6)	weight	NO: 7)	weight	NO: 8)	weight	NO: 9)	weight

	L_1002	1	L_588	1	L_266	1	L_44	1
	G_1003	1	G_589	2	G_267	2	G_45	2
	F_1007	2	F_593	2	Y_271	1	F_49	2
	V_1010	2	V-596	2	V_274	2	V_52	2
	A_1028	1	A_614	1	A_287	1	A_65	1
	V_1029	0.5	V_615	0.5	V_288	0.5	I_66	0.5
	K_1030	0.5	K_616	0.5	K_289	0.5	K_67	0.5
	V_1060	0.5	V_647	0.5	V_317	0.5	V_103	1
	V_1075	1	V_661	1	I_331	0.5	L_118	1
	M_1076	0.5	T_663	−2	T_333	−2	L_120	1
	E_1077	−1	E_664	−1	E_334	−1	E_121	−1
	L_1078	0.5	Y_665	0.5	F_335	0.5	R_122	0.5
	M_1079	1	C_666	0.5	M_336	1	P_123	−1
							E_124	−1
	A_1080	0.5	C_667	0.5	T_337	0.5	P_125	−1
	H_1081	0.5	Y_668	0.5	Y_338	0.5	V_126	0.5
	G_1082	0.5	G_669	0.5	G_339	0.5	Q_127	−1
	D_1083	1	D_670	1	N_340	−2	D_128	1
	M_1139	1	L_785	0.5	L_388	0.5	L_174	0.5
	G_1149	−1	G_795	−1	A_398	1	I_185	1
	D_1150	1	D_796	1	D_399	1	D_186	1
	F_1151	1	F_797	1	F_400	1	F_187	1
	T_1154	−1	A_800	1	S_403	−1	A_191	1
	R_1155	2	R_801	2	R_404	2	L_192	−2
Similarity		16		15.5		11.5		11.5
assessment
value

Residues which constitute a unique hydrophobic interaction critical for binding c-Met to the selective c-Met inhibitor are allocated a maximum weight of 2. Those residues include I1084, G1085, F1089, V1092 and R1227.

Conserved residue substitutions, are assigned half of this maximum value (1) to take into account size changes. Residues such as alanine, valine, leucine and isoleucine are exchanged by conserved substitutions. Similarly, the following residue pairs constitute conservative substitutions: serine and threonine, asparagine and glutamic acid, phenylalanine and tyrosine, and asparagine and glutamine.

When residues contribute only their backbone atoms to the creation of the inhibition model a weight of 0.5 is assigned.

Two penalty levels have been assigned (one severe (−2), one moderate (−1)) to residues which are considered to contribute negatively to the similarity assessment relative to c-Met.

Determination of the similarity assessment provides a critical analysis of the target inhibition model for a kinase relative to the one described in this application for the selective c-Met inhibitor and c-Met.

The results of the similarity assessments indicate the expected selectivity of novel ligands identified with the inhibition model. In one embodiment of the invention, similarity assessment values above 90% of that of the selective c-Met inhibitor and c-Met (25) indicate the lowest level of compound selectivity; similarity assessment values between 90% and 50% are expected at the next level; and similarity assessment values below 50% indicate the highest level of selectivity.

These similarity assessments of various inhibition models are also critical in order to identify regions within the inhibition models that can be employed to ensure adequate complementarity between the inhibition model and ligand to overcome these differences, and therefore, lead to increased likelihood of success in the electronic screening or design process.

For instance, in the design process, the presence of a polar residue in place of a hydrophobic one may significantly alter the inhibitor's chemical environment. Modifications of the inhibitor to include a polar complementary atomic group within the inhibitory model will provide maximum electrostatic interactions with the inhibition model.

4. Use of the Inhibition Model for Ligand Screening (Enrichment), Fitting and Selection

The kinase inhibition model is used for ligand screening (enrichment), fitting, and selection.

The electronic representation of compounds and/or fragments is generated as described above. In one embodiment of the invention, electronic representations of compounds and/or fragments are assembled into electronic databases. In another embodiment of the invention, these databases include chemical entities' coordinates in any SMILES, mol, sdf, or mol2 formats.

Selected chemical entities or fragments may be positioned in a variety of orientations inside the inhibition model. Chemical entities come from different sources including, but not limited to, proprietary compound repositories, commercial data bases, or virtual data bases. Non-limiting exemplary sources of fragments include reagent data bases, de-novo design, etc.

The selected chemical entities or fragments are used to perform a fitting of the electronic representation of compounds and/or fragments and the inhibition model. The fitting is done manually or is computer assisted (docking). In one embodiment, docking programs used in the present invention are ICM (Molsoft, La Jolla, Calif.), FelxiDock (Tripos, St. Louis, Mo.), GRAM (Medical Univ. Of South Carolina), DOCK3.5 and 4.0 (Univ. Calif. San Francisco), Glide (Schrödinger, Portland, Oreg.), Gold (Cambridge Crystallographic Data Centre, UK), FLEX-X (Bi-oSolveIT GmbH, Germany); or AUTODOCK (Scripps Research Institute).

The results of the fitting operation are then analyzed to quantify the association between the chemical entity and the binding pocket. The quality of fitting of these entities to the inhibition model is evaluated either by using a scoring function, shape complementarity, or estimating the interaction energy.

Methods for evaluating the association of a chemical entity with the target include energy minimization and molecular dynamics with standard molecular mechanics force fields, such as CHARMM and AMBER.

Additional data is obtained using Free Energy Perturbations (FEP), to account for other energetic effects such as desolvation penalties. Information about the chemical interactions with the target are then used to elucidate chemical modifications that can enhance selectivity of binding of the compound

Potential binding compounds are identified based on favorable geometric fit and energetically favorable complementary interactions. Energetically favorable electrostatic interactions include attractive charge-charge, dipole-dipole and charge-dipole interactions between the target enzyme, and the small molecule.

The association with the binding pocket is further assessed by means of visual inspection followed by energy minimization and molecular dynamics. Examples of such programs include: MOE (CCG, Montreal, Canada), QUANTA/CHARMM (Accelrys, Inc., San Diego, Calif.); Gaussian (M. J. Frisch, Gaussian, Inc., Carnegie, Pa.); AMBER (P. A. Kollman, University of California at San Francisco); Jaguar (Schrödinger, Portland, Oreg.); SPARTAN (Wavefunction, Inc., Irvine, Calif.); Impact (Schrödinger, Portland, Oreg.); Insight II/Discover (Accelrys, Inc., San Diego, Calif.); MacroModel (Schrödinger, Portland, Oreg.); Maestro (Schrödinger, Portland, Oreg.); and DelPhi (Accelrys, Inc., San Diego, Calif.).

Once suitable fragments have been identified, they are connected into a single compound or complex on the three-dimensional image displayed on a computer screen in relation to all or a portion of the inhibition model.

5. Use of the Inhibition Model for Ligand Design

The design of compounds using the inhibition model includes calculation of non-covalent molecular interactions important in the compound's binding association including hydrogen bonding, van der Waals interactions, hydrophobic interactions and electrostatic interactions.

The compound's binding affinity to the inhibition model is further optimized by computational evaluation of the deformation energy of binding, i.e. the energy difference between bound and free states of the chemical entity.

Computer calculations may suggest more than one conformation similar in overall binding energy for a chemical entity. In these cases the deformation energy of binding is defined as the difference between the energy of the free entity and the average energy of the conformations observed when the inhibitor binds to the protein.

EXAMPLES

Examples are provided below to further illustrate different features of the present invention. The examples also illustrate useful methodology for practicing the invention. These examples do not limit the claimed invention.

Material and Methods

Expression and Purification of the cMet1 Kinase Domain

cDNA of full-length cMet purchased from Origen Technologies was used as template for PCR amplification. The DNA fragment encoding the kinase domain (1038-1346) was inserted into a Novagen vector pet28a between Nco1 and Sal1 sites. The primers were designed to contain a six-histidine tag to the N-terminus. In order to express dephosphorylated cMet kinase protein, a tyrosine phosphatase PTP1B (1-283) was sequentially ligated into the construct between SalI and NotI sites. A second ribosome binding site was incorporated in the PTP1B primer after the SalI site.

c-Met1 Protein Expression

The N-terminal His-tagged proteins were expressed in Circlegrow broth (Q-Biogen). The transformed E. Coli cell line BL21(DE3)RIL (Stratagene) was cultured to OD=0.8 at 37° C. and induced with 0.3 mM of IPTG for overnight at 12° C. The co-expressed protein was purified by metal-chelation chromatography followed by anion and cation columns. In a typical preparation 4 liters of cells were lysed by sonication in 140 ml buffer containing 20 mM MOPS pH 6.5, 200 mM NaCl, 7.5% glycerol, 0.1% Igepal, supplied with 1 mM PMSF. The supernatant was obtained by centrifugation at 50,000 g for 30 minutes and followed by incubation with 8 mL of Ni-NTA His Bind resin (Novagen) at 4° C. for one hour. A second step 50 ml wash buffer (with 100 mM NaCl and 5 mM imidazole) was applied after initial wash with the lysis buffer. Protein was eluted by 200 mM imidazole pH8.5, 100 mM NaCl and 7.5% glycerol and directly cleared by passing 10 ml QFF column. The salt concentration and the pH value of the protein flow through were adjusted to 50 mM and 7.5 by dilution, and then loaded to 1 ml SP FF column. The protein was further gel-filtered in an equilibrium buffer of 20 mM TrisHCl pH8.5, 150 mM NaCl, 7.5% glycerol and 2 mM DTT. The monomeric cMet protein was concentrated to 30 mg/ml for storage at −80° C.

c-Met1 Protein purification was performed as follows:

BL21(DE3)RIL cells were chilled on ice before being induced at 12° C. overnight at a density of OD600=1.

4-6 L cell pellets were then resuspended in 150 ml of 50 mM K₂HPO₄pH 8.0, 200 mM NaCl, 7% Glycerol, 0.1% Igepal.=buffer A, +1.5 mM PMSF.

Cell suspensions were subsequently sonicated at 60% for 10 min, in cycles of 5 s on and 8 s off, and kept in ice.

Sonicated suspensions were centrifuged at 50,000×g for 30 min at 4° C. The resulting supernatants were transferred to 8 ml fresh nickle beads. This solution was rotated for 40 min at 4° C.

Supernatant liquid was allowed to drain off.

The nickel beads (which bound cMet1 protein) were resuspended twice with 50 ml of buffer A.

Nickel beads were then resuspended twice with 25 ml 50 mM K₂HPO₄, 100 mM NaCl, 7.5% Glycerol, 10 mM Imidazole (pH 8.5).

cMet1 protein was eluted from the nickel beads with 30 ml 200 mM Imidazole (pH8.5), 100 mM NaCl, 7.5% Glycerol.

The eluted flow-through directly drains to 10 ml QFF (in 100 mM NaCl).

(a) The first 2 ml of the flow through is not collected, but sent to waste.

(b) All remaining fractions are collected and concentrated down to ˜500 ul for Gelfiltration in 20 mM TrisHCl pH 8.5, 150 mM NaCl, 7.5% Glycerol, 1 mM DTT. Peak elutes around 16 ml from a 24 ml superdex 200.

c-Met1 Crystallization, Data Collection and Structure Determination

The c-Met protein was diluted to 10 mg/ml by a buffer of 20 mM TrisHCl 8.5, 100 mM NCl and 5% glycerol. The selective c-Met inhibitor was added to 1 mM from a 10 mM (50% DMSO) stock solution. 20 mM Li₂SO₄was also included in the protein solution. Thin needle crystals were obtained at 4° C. by hanging drop methodology using 15% ethanol, 12% ethylene glycol, 100 mM imidazole pH8.5 as precipitant. Typically, 250 nL protein solution was mixed with an equal volume of reservoir solution and streak-seeding method was employed to reduce the crystal nucleus. The crystals were harvested after adding ethylene glycol to 30%. The triclinic crystal has unit cell dimension of a=53.22 Å, b=57.97 Å, c=64.93 Å, α=88.11°, β=67.97°, γ=85.58°. There are two copies of c-Met polypeptide chain per asymmetric unit and the solvent content is 45%.

Diffraction images were collected at Cornell High Energy Synchrotron Source beamline A1 at 100 K with CCD detector. Raw data were reduced with DENZO and scaled and merged by using SCALEPACK on CHESS site. The complex structure was solved by molecular replacement using the program MOLREP implemented in CCP4. The Initial mode was ligand free c-Met kinase crystal structure (PDB code 2G15) from 1060-1346, excluding 1222-1239 (activation loop). With data up to 3 Å, a unique solution was found with correlation coefficient 0.34 versus 0.19 for the next highest peak. Structure refinement consisted of iterative cycles of modeling building in Coot, following by simulated annealing, minimization, and restrained B-factor refinement in CNX. The N-terminal and the A-loop amino acids were revealed during the refinement and built back to the electron density with different conformation from the initial model. Water molecules were added based on Fo-Fc maps (3σ) with density recapitulated in 2Fo-Fc maps (1σ). All waters satisfy the hydrogen-bonding criteria as implemented in the CNX programs Waterpick and Waterdelete. Non-crystallographic symmetry was not employed for the refinement though the two subunits are almost identical. In both subunits, the inhibitor conformation was unambiguously defined in the electron density and included for the refinement at late stage. Final rounds of improvement were performed in REFAC5 with TLS protocols to 2 Å and no σ cutoff. The finished model has continuous electron density from 1047 to 1346 but missing 1038-1046, and also contains 500 water molecules with a crystallographic R-value of 20.9% (R_free=25.3%). The x-ray data and refinement statistics are summarized in Table 3.

TABLE 3

Data collection

	Space group	P1
	Cell dimensions a, b, c (Å)	53.22, 57.97, 64.93
	Cell angles α, β, γ (deg)	88.11, 67.97, 85.58
	Resolution (Å)	30.0-2.0
	Unique reflections	38978
	Completeness (2.07-2.00 Å)	84.8% (51.4%)
	R_sym(2.07-2.00 Å)	11.0% (26%)
	Mean I/σ(I)	6.9
	Redundancy	1.8

Refinement

	Intensity cutoff	0.0
	R_cryst^a	22.3%
	R_free^a	24.6%
	rmsd in bond length (Å)	0.009
	rmsd in bond angle (°)	1.77
	Average B factor (Å²)	23.00

	^aR_crysand R_free= (Σ\|Fobs − Fcalc\|)/(Σ\|Fobs\|). R_freewas calculated over a randomly selected 5% of the reflections not used in refinement. Parentheses indicate the outer resolution shell.

Example 1

The Structure of the c-Met1/Inhibitor Complex

The unphosphorylated c-Met kinase domain bound to the selective c-Met inhibitor follows the bi-lobal architecture with N-terminal domain mainly β-sheet connected through a hinge segment to the mainly α-helical C-terminal lobe. All of the residues of the kinase domain are well defined in the structure, including those from the activation loop and the nucleotide binding loop (P-loop). Residues of those loops have an average B-values less than 35 Å.

The selective c-Met inhibitor binds the interdomain cleft between the N- and C-lobes. The carbonyl group from the succinamide ring forms hydrogen bond with the backbone amide of M1160 and the N—H group forms hydrogen bonds with the backbone carbonyl of P1158. The indole ring is close to the ATP binding site opening while the tricyclic ring is bound deep inside the hydrophobic pocket. While the selective c-Met inhibitor binding mode is similar to the binding of many ATP competitive inhibitors, the kinase domain of c-Met bound to the selective c-Met inhibitor assumes an inactive conformation resembling that found in some receptor tyrosine kinases.

The activation loop is in the canonical, autoinhibitory conformation with a short anti-parallel strand observed in many inactive RTKs present in the structure. Two tyrosine residues Y1234 and Y1235 located in the A-loop of the kinase domain are responsible for c-Met catalytic activity. While Y1234 is exposed, Y1235 is sequestered into the active site occupying the site of the substrate tyrosine (FIG. 1). FIG. 1 shows the activation loop of the unphosphorylated c-Met bound to selective inhibitor AQ197 is shown in dark gray. The peptide substrate, as seen in the structure of the phosphorylated insulin receptor IRK in complex with ATP and a peptide (PDB entry 1IR3), is shown in lighter grey. FIG. 1 was generated by superimposing the catalytic segments of those two kinases. Similar orientation has been found for Y1162 in the inactive IRK (1IRK), Y842 of FLT3 (1RJB), Y823 in c-Kit (1T45), Y412 of c-Abl (2HYY) as well as Y823 of c-Kit (1T46) bound to Gleevec, and Y809 of cFMS bound to arylamides (2IOY) and quinolone (2IOV) series of inhibitors.

Y1235 of unphosphorylated c-Met bound to the selective c-Met inhibitor is held by a hydrogen bond network formed by catalytic loop (C-loop) N1204 and R1208, strictly conserved residues across the type III RTKs. Their hydrogen bond interactions correlate well with observed substrate preferences in active RTKs like IRK and c-Kit, where the corresponding Asp residue interacts with the attacking hydroxyl side chain of the substrate, while the arginine residue engages in hydrogen bonding interactions that orient asparagine (FIG. 2). FIG. 2 is a cartoon image of c-Met kinase domain. The activation loop is in the canonical, autoinhibitory conformation forming a typical short anti-parallel strand. This particular conformation has been observed in other inactive RTKs. While Y1235 is mimicking the substrate tyrosine residue Y1234 is exposed. Residues shown in sticks are labeled. Y1235 of c-Met bound to the selective c-Met inhibitor is sequestered by the hydrogen bond network formed by N1204 and R1208. These two residues are part of the catalytic loop (C-loop) and strictly conserved across the type III RTKs. The aromatic side chain of F1089 (sticks) stabilize the downfold of the loop by van de Waals contacts with the selective c-Met inhibitor. Similar specific conformations induced by small molecule fitting are present in the crystal structures of Abl bound to Gleevec and FGFR-1 bound to SU-5402 (PDB entry 1FGK). In the structure of the selective c-Met inhibitor bound to c-Met the conformation of the A-loop dramatically differs from those reported previously for the c-Met receptor kinase domain (Wang, W. et al. 2006. Proc. Natl. Acad. Sci. USA 103:3563-3568 (2006); Schiering, N. et al. 2003. Proc. Natl. Acad. Sci. USA 100:112654-12659). The wild type apo-c-Met reported by Wang et al. shows the activation loop in an open conformation, unsuitable for substrate binding, but does not block the ATP binding site. Y1234 is pulled closer to the N-terminal domain, making hydrogen bonds with E1127 an important catalytic residue as we explained above. The structure of mutant c-Met resolved by Schiering et al. was obtained from baculovirus cultures where the Y1194, Y1234 and Y1235 were mutated to prevent their phosphorylation during production. In this case the activation loop resembles the activated conformation.

Two different conformations of the DFG motif are known. In the activated kinases the DFG motif is in so-called ‘DFG-in’ conformation. This conformation permits Mg²⁺ ion ligation by asparagine residue and phenylalanine makes room for the ATP tucking itself away under the αC helix. In this case the kinase has the ability to bind the ATP productively. In the ‘DFG-out’ conformation which is exhibited by our structure the aspartic acid and the phenylalanine switched sides, with aspartic acid point away from where the ATP would bind and phenylalanine is situated in the approximated position of the ATP adenine moiety. Stabilization of this portion of the A-loop is provided in part by the tricyclic group of the selective c-Met inhibitor, which is making van der Waals interactions with phenylalanine residue from the DFG motif. This is why, although the hydroxyl group of the Y1235 is in position for phosphor-transfer, the DFG-out motif occludes the ATP binding site interfering with a possibility of cis-transfer.

The nucleotide binding loop, the P-loop is well ordered in the structure of c-Met bound to the selective c-Met inhibitor, where residues 11084 to G1087 form part of the β1 strand. In contrast, in the publicly available unbound c-Met these four residues are disordered. F1089 stabilizes the downfold of the loop by van de Waals contacts with the selective c-Met inhibitor (FIG. 2). Crystal structures of Abl and FGFR complexed with inhibitors STI-571 (2HYY) and SU-5402 (1FGI), respectively, adopt similar conformations induced by inhibitor fitting.

While there are common features shared by Gleevec bound to c-Abl and c-Met bound to the selective c-Met inhibitor, there is an important difference in the alignment of the lysine-glutamic acid pair. In phosphorylated kinases corresponding glutamic acid residue stabilizes the orientation of lysine residue after kinase activation. When Gleevec binds c-Abl the salt bridge is well preserved and forms part of the hydrogen bond network with the inhibitor. When the selective c-Met inhibitor binds c-Met, the ion pair is disrupted, residues K1110 and E1127 are 16 Å apart, accentuating the inactive nature of the c-Met kinase conformation in the presence of the selective c-Met inhibitor With respect to FIG. 4, strictly conserved Lys (β3) and Glu (αC) in active kinases form an ion pair necessary for stabilizing the phosphate group transfer. Unphosphorylated c-Met bound to AQ197 shows this salt bridge disrupted as a result of the conformational changes of the A-loop and the helix αC (magenta). In yellow, the αC structure of the active form of insuline receptor kinase. Catalytic important Glutamic acid residues are shown in sticks.

A similar situation to c-Abl is present in c-Kit bound to Gleevec, lysine-glutamic acid maintain salt bridge distance. c-Kit structure is remarkable in another way. The unphosphorylated apo-structure appears very similar to the structure in complex with Gleevec. This fact may confirm the overall belief that Gleevec recognizes and binds the canonical, autoinhibited kinase conformation.

Another receptor kinase cFMS bound to small molecule inhibitors is also in the canonical inactive conformation (Schubert, C. et al. 2007. J. Biol. Chem. 282:4094-4101). These inhibitors resemble the binding mode of Gleevec, but being small they do not reach the back pocket.

It is reasonable to suggest based on this description of the binding mode of the selective c-Met inhibitor bound to the non-phosphorylated form of c-Met, that the selective c-Met inhibitor binds a pre-existing pocket formed in the unphosphorylated c-Met, with the tricyclic moiety fitting perfectly between two phenylalanine residues F1089 from the P-loop and F1223 from the DFG motif. Both residues have their aromatic rings in van der Waals, hydrophobic contact with the selective c-Met inhibitor.

Example 1A

The Construction of the c-Met2 Inhibition Model

The three dimensional electronic representation of the ligand bound to c-Met was used. Twenty three residues of c-Met at distances up to 6 Å from every atom of the ligand were selected. The coordinates of these twenty three residues constitute the inhibition model of c-Met.

The amino acids of the inhibition model of c-Met derived from the structure of c-Met2 kinase domain are described herein and are defined by a set of structure coordinates set forth in Table 4.

TABLE 4

(SEQ ID NO: 11)

ATOM	1	N	ILE	1084	−19.676	−14.451	−19.716	15.47	N
ATOM	2	CA	ILE	1084	−20.082	−15.696	−19.067	15.31	C
ATOM	3	CB	ILE	1084	−21.542	−15.681	−18.586	14.71	C
ATOM	4	CG1	ILE	1084	−21.729	−14.619	−17.505	14.37	C
ATOM	5	CD1	ILE	1084	−23.127	−14.461	−17.033	6.51	C
ATOM	6	CG2	ILE	1084	−21.928	−17.056	−18.067	14.52	C
ATOM	7	C	ILE	1084	−19.802	−16.886	−19.998	14.64	C
ATOM	8	O	ILE	1084	−19.178	−17.865	−19.589	14.54	O
ATOM	9	N	GLY	1085	−20.235	−16.777	−21.247	14.55	N
ATOM	10	CA	GLY	1085	−19.946	−17.782	−22.243	13.94	C
ATOM	11	C	GLY	1085	−20.087	−17.158	−23.592	14.69	C
ATOM	12	O	GLY	1085	−20.694	−16.104	−23.725	13.22	O
ATOM	13	N	PHE	1089	−24.836	−18.883	−30.097	15.3	N
ATOM	14	CA	PHE	1089	−25.9	−18.001	−29.571	13.53	C
ATOM	15	CB	PHE	1089	−26.393	−18.453	−28.156	12.25	C
ATOM	16	CG	PHE	1089	−25.281	−18.681	−27.155	12.52	C
ATOM	17	CD1	PHE	1089	−24.789	−19.972	−26.93	10.55	C
ATOM	18	CE1	PHE	1089	−23.728	−20.182	−26.026	10.53	C
ATOM	19	CZ	PHE	1089	−23.173	−19.124	−25.36	10.12	C
ATOM	20	CE2	PHE	1089	−23.625	−17.83	−25.583	9.89	C
ATOM	21	CD2	PHE	1089	−24.694	−17.613	−26.476	12.9	C
ATOM	22	C	PHE	1089	−25.449	−16.545	−29.503	13.39	C
ATOM	23	O	PHE	1089	−26.284	−15.658	−29.406	14.08	O
ATOM	24	N	VAL	1092	−22.639	−13.849	−23.919	12.22	N
ATOM	25	CA	VAL	1092	−23.38	−13.53	−22.701	10.83	C
ATOM	26	CB	VAL	1092	−24.097	−14.78	−22.141	10.23	C
ATOM	27	CG1	VAL	1092	−24.877	−14.441	−20.91	8.74	C
ATOM	28	CG2	VAL	1092	−24.998	−15.332	−23.184	11.17	C
ATOM	29	C	VAL	1092	−22.393	−12.944	−21.691	10.92	C
ATOM	30	O	VAL	1092	−21.402	−13.605	−21.364	9.96	O
ATOM	31	N	ALA	1108	−26.911	−12.095	−15.851	8.12	N
ATOM	32	CA	ALA	1108	−26.39	−12.461	−17.121	8.23	C
ATOM	33	CB	ALA	1108	−26.701	−13.958	−17.42	7.36	C
ATOM	34	C	ALA	1108	−27.054	−11.581	−18.146	7.48	C
ATOM	35	O	ALA	1108	−28.294	−11.377	−18.103	6.23	O
ATOM	36	N	VAL	1109	−26.262	−11.022	−19.053	6.4	N
ATOM	37	CA	VAL	1109	−26.871	−10.086	−19.974	7.09	C
ATOM	38	CB	VAL	1109	−26.761	−8.561	−19.567	7.99	C
ATOM	39	CG1	VAL	1109	−25.877	−8.259	−18.375	9.38	C
ATOM	40	CG2	VAL	1109	−26.627	−7.612	−20.741	7.64	C
ATOM	41	C	VAL	1109	−26.574	−10.363	−21.435	8.01	C
ATOM	42	O	VAL	1109	−25.47	−10.729	−21.79	5.65	O
ATOM	43	N	LYS	1110	−27.587	−10.221	−22.269	7.51	N
ATOM	44	CA	LYS	1110	−27.256	−10.294	−23.664	9.65	C
ATOM	45	CB	LYS	1110	−27.073	−11.731	−24.086	10.89	C
ATOM	46	CG	LYS	1110	−28.259	−12.478	−24.304	12.06	C
ATOM	47	CD	LYS	1110	−28.291	−12.786	−25.777	14.94	C
ATOM	48	CE	LYS	1110	−26.923	−13.196	−26.354	15.05	C
ATOM	49	NZ	LYS	1110	−27.04	−13.161	−27.915	11.9	N
ATOM	50	C	LYS	1110	−28.105	−9.473	−24.577	9.23	C
ATOM	51	O	LYS	1110	−29.287	−9.193	−24.318	8.86	O
ATOM	52	N	LEU	1140	−37.463	−20.519	−16.111	8.72	N
ATOM	53	CA	LEU	1140	−36.55	−19.367	−16.142	11.04	C
ATOM	54	CB	LEU	1140	−35.314	−19.688	−17	10.97	C
ATOM	55	CG	LEU	1140	−34.23	−18.646	−17.065	9.46	C
ATOM	56	CD1	LEU	1140	−33.609	−18.426	−15.69	8.34	C
ATOM	57	CD2	LEU	1140	−33.188	−19.076	−18.042	11.77	C
ATOM	58	C	LEU	1140	−37.252	−18.13	−16.69	12.97	C
ATOM	59	O	LEU	1140	−37.803	−18.148	−17.804	12.64	O
ATOM	60	N	VAL	1155	−31.611	−8.495	−22.98	8.16	N
ATOM	61	CA	VAL	1155	−32.323	−9.277	−21.923	8.76	C
ATOM	62	CB	VAL	1155	−32.814	−10.693	−22.353	9.39	C
ATOM	63	CG1	VAL	1155	−34.033	−10.582	−23.316	10.94	C
ATOM	64	CG2	VAL	1155	−31.728	−11.492	−22.993	8.74	C
ATOM	65	C	VAL	1155	−31.427	−9.427	−20.73	8.02	C
ATOM	66	O	VAL	1155	−30.209	−9.527	−20.889	7.13	O
ATOM	67	N	LEU	1157	−30.843	−11.847	−17.422	7.79	N
ATOM	68	CA	LEU	1157	−31.27	−13.118	−16.786	7.81	C
ATOM	69	CB	LEU	1157	−30.902	−14.33	−17.682	9.69	C
ATOM	70	CG	LEU	1157	−32.066	−14.227	−18.65	11.62	C
ATOM	71	CD1	LEU	1157	−31.674	−13.539	−19.933	11.32	C
ATOM	72	CD2	LEU	1157	−32.851	−15.474	−18.797	10.57	C
ATOM	73	C	LEU	1157	−30.661	−13.291	−15.419	8.75	C
ATOM	74	O	LEU	1157	−29.588	−12.733	−15.162	7.63	O
ATOM	75	N	PRO	1158	−31.285	−14.129	−14.552	9.58	N
ATOM	76	CA	PRO	1158	−30.573	−14.427	−13.309	10.72	C
ATOM	77	CB	PRO	1158	−31.566	−15.292	−12.497	10.18	C
ATOM	78	CG	PRO	1158	−32.788	−15.258	−13.187	11.04	C
ATOM	79	CD	PRO	1158	−32.545	−14.873	−14.637	9.45	C
ATOM	80	C	PRO	1158	−29.342	−15.228	−13.655	11.46	C
ATOM	81	O	PRO	1158	−29.302	−15.934	−14.683	11.52	O
ATOM	82	N	TYR	1159	−28.326	−15.091	−12.828	12.18	N
ATOM	83	CA	TYR	1159	−27.094	−15.799	−13.05	13.78	C
ATOM	84	CB	TYR	1159	−25.976	−15.173	−12.234	13.95	C
ATOM	85	CG	TYR	1159	−24.668	−15.894	−12.374	15.44	C
ATOM	86	CD1	TYR	1159	−23.973	−15.906	−13.604	15.19	C
ATOM	87	CE1	TYR	1159	−22.762	−16.583	−13.73	15.55	C
ATOM	88	CZ	TYR	1159	−22.229	−17.235	−12.622	15.73	C
ATOM	89	OH	TYR	1159	−21.025	−17.924	−12.718	18.54	O
ATOM	90	CE2	TYR	1159	−22.889	−17.225	−11.399	16.11	C
ATOM	91	CD2	TYR	1159	−24.099	−16.548	−11.276	14.98	C
ATOM	92	C	TYR	1159	−27.328	−17.25	−12.659	14.12	C
ATOM	93	O	TYR	1159	−27.868	−17.544	−11.573	13.85	O
ATOM	94	N	MET	1160	−26.977	−18.141	−13.575	13.76	N
ATOM	95	CA	MET	1160	−27.199	−19.572	−13.403	14.48	C
ATOM	96	CB	MET	1160	−28.079	−20.159	−14.542	14.71	C
ATOM	97	CG	MET	1160	−29.48	−19.592	−14.597	15.91	C
ATOM	98	SD	MET	1160	−30.533	−20.154	−13.195	20.68	S
ATOM	99	CE	MET	1160	−31.401	−18.698	−12.74	20.48	C
ATOM	100	C	MET	1160	−25.816	−20.14	−13.382	14.64	C
ATOM	101	O	MET	1160	−25.182	−20.283	−14.417	15.02	O
ATOM	102	N	LYS	1161	−25.314	−20.346	−12.167	15.21	N
ATOM	103	CA	LYS	1161	−23.952	−20.771	−11.91	14.1	C
ATOM	104	CB	LYS	1161	−23.758	−21.08	−10.427	15.12	C
ATOM	105	CG	LYS	1161	−22.333	−21.497	−10.095	17.53	C
ATOM	106	CD	LYS	1161	−22.188	−21.839	−8.613	24.97	C
ATOM	107	CE	LYS	1161	−20.714	−21.982	−8.207	26.67	C
ATOM	108	NZ	LYS	1161	−20.549	−21.583	−6.789	32.02	N
ATOM	109	C	LYS	1161	−23.518	−21.98	−12.746	13.45	C
ATOM	110	O	LYS	1161	−22.404	−22.006	−13.258	12.16	O
ATOM	111	N	HIS	1162	−24.38	−22.987	−12.865	12.66	N
ATOM	112	CA	HIS	1162	−23.979	−24.201	−13.569	12.84	C
ATOM	113	CB	HIS	1162	−24.427	−25.452	−12.815	11.85	C
ATOM	114	CG	HIS	1162	−23.908	−25.504	−11.426	13.4	C
ATOM	115	ND1	HIS	1162	−22.554	−25.561	−11.145	15.28	N
ATOM	116	CE1	HIS	1162	−22.385	−25.595	−9.838	16.31	C
ATOM	117	NE2	HIS	1162	−23.575	−25.537	−9.261	17.98	N
ATOM	118	CD2	HIS	1162	−24.542	−25.471	−10.232	14.71	C
ATOM	119	C	HIS	1162	−24.36	−24.282	−15.038	13.45	C
ATOM	120	O	HIS	1162	−24.234	−25.367	−15.634	14.09	O
ATOM	121	N	GLY	1163	−24.807	−23.162	−15.62	12.39	N
ATOM	122	CA	GLY	1163	−25.108	−23.113	−17.056	11.81	C
ATOM	123	C	GLY	1163	−26.195	−24.111	−17.397	11.37	C
ATOM	124	O	GLY	1163	−27.052	−24.405	−16.541	12.27	O
ATOM	125	N	ASP	1164	−26.16	−24.657	−18.612	10.58	N
ATOM	126	CA	ASP	1164	−27.202	−25.57	−19.037	11.05	C
ATOM	127	CB	ASP	1164	−27.395	−25.576	−20.566	10.73	C
ATOM	128	CG	ASP	1164	−26.214	−26.22	−21.317	14.82	C
ATOM	129	OD1	ASP	1164	−26.203	−27.447	−21.509	16.5	O
ATOM	130	OD2	ASP	1164	−25.324	−25.485	−21.76	16.71	O
ATOM	131	C	ASP	1164	−26.958	−26.97	−18.481	10.14	C
ATOM	132	O	ASP	1164	−25.836	−27.355	−18.139	9.32	O
ATOM	133	N	ASP	1211	−31.568	−24.508	−17.398	11.25	N
ATOM	134	CA	ASP	1211	−30.407	−23.962	−16.703	12.07	C
ATOM	135	CB	ASP	1211	−30.29	−22.425	−16.878	13.35	C
ATOM	136	CG	ASP	1211	−29.946	−21.986	−18.38	15.72	C
ATOM	137	OD1	ASP	1211	−28.869	−22.268	−19.063	3.34	O
ATOM	138	OD2	ASP	1211	−30.838	−21.298	−18.869	22.8	O
ATOM	139	C	ASP	1211	−30.314	−24.43	−15.238	11.76	C
ATOM	140	O	ASP	1211	−31.303	−24.781	−14.626	11.98	O
ATOM	141	N	ALA	1221	−35.874	−22.995	−19.798	9.64	N
ATOM	142	CA	ALA	1221	−35.638	−21.759	−20.538	11.43	C
ATOM	143	CB	ALA	1221	−34.165	−21.475	−20.605	12.72	C
ATOM	144	C	ALA	1221	−36.215	−21.756	−21.953	12.59	C
ATOM	145	O	ALA	1221	−36.317	−22.801	−22.617	11.05	O
ATOM	146	O	ASP	1222	−36.499	−18.098	−24.227	17.5	O
ATOM	147	N	ASP	1222	−36.5	−20.634	−22.356	20	N
ATOM	148	CA	ASP	1222	−36.941	−20.406	−23.727	20	C
ATOM	149	C	ASP	1222	−36.151	−19.273	−24.377	20	C
ATOM	150	CB	ASP	1222	−38.437	−20.091	−23.763	20	C
ATOM	151	CG	ASP	1222	−38.824	−18.99	−22.796	20	C
ATOM	152	OD1	ASP	1222	−37.994	−18.638	−21.932	20	O
ATOM	153	OD2	ASP	1222	−39.935	−18.418	−22.824	20	O
ATOM	154	N	PHE	1223	−35.113	−19.54	−24.88	16.19	N
ATOM	155	CA	PHE	1223	−34.306	−18.466	−25.34	17.32	C
ATOM	156	CB	PHE	1223	−32.818	−18.714	−25.181	16	C
ATOM	157	CG	PHE	1223	−32.355	−18.541	−23.754	11.65	C
ATOM	158	CD1	PHE	1223	−32.357	−17.286	−23.16	11.27	C
ATOM	159	CE1	PHE	1223	−31.94	−17.128	−21.826	15.53	C
ATOM	160	CZ	PHE	1223	−31.549	−18.252	−21.091	14.31	C
ATOM	161	CE2	PHE	1223	−31.558	−19.492	−21.689	14.38	C
ATOM	162	CD2	PHE	1223	−31.98	−19.622	−23.01	14.35	C
ATOM	163	C	PHE	1223	−34.816	−18.009	−26.7	20.29	C
ATOM	164	O	PHE	1223	−35.386	−16.886	−26.787	22.15	O
ATOM	165	N	ALA	1226	−32.985	−15.014	−28.359	16.83	N
ATOM	166	CA	ALA	1226	−31.681	−14.627	−27.816	15.78	C
ATOM	167	CB	ALA	1226	−31.656	−14.803	−26.309	15.05	C
ATOM	168	C	ALA	1226	−30.512	−15.38	−28.432	15.33	C
ATOM	169	O	ALA	1226	−29.385	−14.922	−28.31	14.85	O
ATOM	170	N	ARG	1227	−30.768	−16.534	−29.062	14.69	N
ATOM	171	CA	ARG	1227	−29.719	−17.245	−29.776	13.62	C
ATOM	172	CB	ARG	1227	−30.066	−18.729	−29.985	14.18	C
ATOM	173	CG	ARG	1227	−30.303	−19.5	−28.711	12.15	C
ATOM	174	CD	ARG	1227	−30.765	−20.926	−28.952	14.86	C
ATOM	175	NE	ARG	1227	−30.801	−21.623	−27.669	17.43	N
ATOM	176	CZ	ARG	1227	−29.719	−22.054	−27.024	18.53	C
ATOM	177	NH1	ARG	1227	−28.513	−21.933	−27.574	20.01	N
ATOM	178	NH2	ARG	1227	−29.843	−22.65	−25.851	19.76	N
ATOM	179	C	ARG	1227	−29.535	−16.57	−31.118	13.93	C
ATOM	180	O	ARG	1227	−30.445	−16.603	−31.947	14.89	O

Example 2

The Construction of the c-Abl Inhibition Model

A 3-dimensional model for the inhibition of c-Abl was created using the process described below.

The sequence alignment of c-Abl kinase and the amino acid sequence of c-Met was performed using MOE alignment tools. Care was taken to make sure that known kinase motifs: DFG motif, the hinge residues and the salt bridge residues were superposed.

The identification of conserved amino acid residues between c-Met and c-Abl, generation of atomic coordinates of all conserved amino acids in c-Abl from the electronic representation of c-Met residues; rotamer search of the structurally variable and replacement of non-conserved residues of c-Met with residues from c-Abl sequence; building of side chain conformations; and final refinement and evaluation of the c-Abl structure were carried out in an automated fashion using MOE homology tools.

Example 3

The Similarity Assessment of c-Abl Inhibition Model

From Table 2, it can be determined that the similarity assessment value is less than 50% for c-Abl. Three residues show negative weights: T333 (L1157), N340 (D1164), and S403 (A1226). The inhibition model will have a significant change in polarity factor.

L1157 is located deep into the c-Met inhibition model. This residue is one of several which confers c-Met its mainly hydrophobic nature. In this position, c-Abl model shows a T333, a highly polar residue. Therefore, the chemical environment of an inhibitor has changed dramatically. The selective c-Met inhibitor does not have any atomic group to make favorable electrostatic interactions with T333. N340 and S403 also lack favorable electrostatic interactions with the selective c-Met inhibitor. Thus, the selective c-Met inhibitor is not predicted to inhibit c-Abl.

The amino acids of the inhibition model of c-Abl derived from the c-Met inhibition model are described herein and are defined by a set of structure coordinates set forth in Table 5.

TABLE 5

(SEQ ID NO: 8)

ATOM	N	LEU	266	−19.916	−14.441	−18.273	N
ATOM	CA	LEU	266	−20.814	−15.367	−18.929	C
ATOM	CB	LEU	266	−22.191	−14.827	−19.221	C
ATOM	C	LEU	266	−20.09	−16.157	−20.018	C
ATOM	O	LEU	266	−19.184	−16.942	−19.745	O
ATOM	CG	LEU	266	−23.209	−15.308	−18.209	C
ATOM	CD1	LEU	266	−22.892	−14.842	−16.81	C
ATOM	CD2	LEU	266	−24.581	−14.82	−18.593	C
ATOM	N	GLY	267	−20.417	−15.864	−21.327	N
ATOM	CA	GLY	267	−19.615	−16.503	−22.345	C
ATOM	C	GLY	267	−20.218	−16.526	−23.733	C
ATOM	O	GLY	267	−21.424	−16.638	−23.949	O
ATOM	N	TYR	271	−24.397	−19.744	−29.694	N
ATOM	CA	TYR	271	−25.559	−18.884	−29.522	C
ATOM	CB	TYR	271	−26.283	−19.182	−28.204	C
ATOM	C	TYR	271	−25.27	−17.375	−29.625	C
ATOM	O	TYR	271	−26.133	−16.521	−29.392	O
ATOM	CG	TYR	271	−25.398	−19.096	−26.995	C
ATOM	CD1	TYR	271	−24.792	−17.887	−26.648	C
ATOM	CD2	TYR	271	−25.102	−20.248	−26.264	C
ATOM	CE1	TYR	271	−23.869	−17.829	−25.616	C
ATOM	CE2	TYR	271	−24.179	−20.197	−25.219	C
ATOM	CZ	TYR	271	−23.557	−18.989	−24.92	C
ATOM	OH	TYR	271	−22.608	−18.958	−23.929	O
ATOM	N	VAL	274	−23.294	−14.153	−24.61	N
ATOM	CA	VAL	274	−24.16	−13.806	−23.491	C
ATOM	CB	VAL	274	−25.02	−14.966	−23.017	C
ATOM	C	VAL	274	−23.242	−13.359	−22.365	C
ATOM	O	VAL	274	−22.23	−13.983	−22.045	O
ATOM	CG1	VAL	274	−26.029	−14.498	−21.991	C
ATOM	CG2	VAL	274	−25.781	−15.575	−24.163	C
ATOM	N	ALA	287	−27.677	−12.533	−15.683	N
ATOM	CA	ALA	287	−27.163	−12.605	−17.031	C
ATOM	CB	ALA	287	−27.621	−13.873	−17.711	C
ATOM	C	ALA	287	−27.733	−11.415	−17.791	C
ATOM	O	ALA	287	−28.826	−10.907	−17.535	O
ATOM	N	VAL	288	−26.977	−11.03	−18.871	N
ATOM	CA	VAL	288	−27.516	−10.069	−19.803	C
ATOM	CB	VAL	288	−26.987	−8.657	−19.576	C
ATOM	C	VAL	288	−27.201	−10.557	−21.208	C
ATOM	O	VAL	288	−26.124	−11.023	−21.58	O
ATOM	CG1	VAL	288	−27.658	−7.659	−20.495	C
ATOM	CG2	VAL	288	−27.21	−8.185	−18.157	C
ATOM	N	LYS	289	−28.252	−10.312	−22.064	N
ATOM	CA	LYS	289	−28.041	−10.491	−23.48	C
ATOM	CB	LYS	289	−28.329	−11.881	−24.014	C
ATOM	C	LYS	289	−28.817	−9.471	−24.288	C
ATOM	O	LYS	289	−29.858	−8.937	−23.914	O
ATOM	CG	LYS	289	−27.284	−12.24	−25.052	C
ATOM	CD	LYS	289	−27.779	−13.297	−26.008	C
ATOM	CE	LYS	289	−26.677	−13.676	−26.976	C
ATOM	NZ	LYS	289	−27.262	−14.535	−28.044	N1+
ATOM	N	VAL	317	−36.3	−20.382	−15.116	N
ATOM	CA	VAL	317	−35.436	−19.216	−15.287	C
ATOM	CB	VAL	317	−34.28	−19.474	−16.244	C
ATOM	C	VAL	317	−36.337	−18.127	−15.852	C
ATOM	O	VAL	317	−37.128	−18.313	−16.773	O
ATOM	CG1	VAL	317	−33.439	−20.65	−15.809	C
ATOM	CG2	VAL	317	−33.373	−18.267	−16.334	C
ATOM	N	ILE	331	−32.2	−7.875	−22.796	N
ATOM	CA	ILE	331	−32.865	−8.817	−21.914	C
ATOM	CB	ILE	331	−33.299	−10.061	−22.683	C
ATOM	C	ILE	331	−31.906	−9.163	−20.783	C
ATOM	O	ILE	331	−30.744	−9.528	−20.955	O
ATOM	CG1	ILE	331	−34.398	−9.745	−23.684	C
ATOM	CG2	ILE	331	−33.763	−11.172	−21.764	C
ATOM	CD1	ILE	331	−35.654	−9.209	−23.03	C
ATOM	N	THR	333	−31.711	−11.403	−17.09	N
ATOM	CA	THR	333	−32.291	−12.558	−16.398	C
ATOM	CB	THR	333	−32.376	−13.8	−17.293	C
ATOM	C	THR	333	−31.371	−12.885	−15.243	C
ATOM	O	THR	333	−30.16	−12.687	−15.306	O
ATOM	OG1	THR	333	−31.099	−14.206	−17.797	O
ATOM	CG2	THR	333	−33.289	−13.577	−18.477	C
ATOM	N	GLU	334	−31.929	−13.562	−14.194	N
ATOM	CA	GLU	334	−31.049	−14.086	−13.162	C
ATOM	CB	GLU	334	−31.793	−14.548	−11.918	C
ATOM	C	GLU	334	−30.016	−15.113	−13.667	C
ATOM	O	GLU	334	−30.153	−15.806	−14.674	O
ATOM	CG	GLU	334	−32.718	−15.726	−12.155	C
ATOM	CD	GLU	334	−33.907	−15.472	−13.064	C
ATOM	OE1	GLU	334	−34.471	−16.519	−13.499	O1−
ATOM	OE2	GLU	334	−34.185	−14.264	−13.348	O
ATOM	N	PHE	335	−28.897	−15.174	−12.855	N
ATOM	CA	PHE	335	−27.724	−15.967	−13.224	C
ATOM	CB	PHE	335	−26.472	−15.304	−12.651	C
ATOM	C	PHE	335	−27.822	−17.389	−12.673	C
ATOM	O	PHE	335	−27.992	−17.648	−11.486	O
ATOM	CG	PHE	335	−25.147	−15.936	−12.949	C
ATOM	CD1	PHE	335	−24.88	−16.583	−14.156	C
ATOM	CD2	PHE	335	−24.145	−15.864	−11.983	C
ATOM	CE1	PHE	335	−23.637	−17.166	−14.389	C
ATOM	CE2	PHE	335	−22.898	−16.44	−12.214	C
ATOM	CZ	PHE	335	−22.645	−17.095	−13.416	C
ATOM	N	MET	336	−27.676	−18.363	−13.637	N
ATOM	CA	MET	336	−27.674	−19.773	−13.292	C
ATOM	CB	MET	336	−28.489	−20.582	−14.273	C
ATOM	C	MET	336	−26.24	−20.281	−13.223	C
ATOM	O	MET	336	−25.533	−20.558	−14.187	O
ATOM	CG	MET	336	−29.927	−20.877	−13.875	C
ATOM	SD	MET	336	−30.643	−20.004	−12.452	S
ATOM	CE	MET	336	−31.071	−18.464	−13.296	C
ATOM	N	THR	337	−25.767	−20.22	−11.937	N
ATOM	CA	THR	337	−24.346	−20.219	−11.611	C
ATOM	CB	THR	337	−24.222	−20.086	−10.094	C
ATOM	C	THR	337	−23.595	−21.487	−12.019	C
ATOM	O	THR	337	−22.386	−21.482	−12.227	O
ATOM	OG1	THR	337	−25.449	−19.587	−9.527	O
ATOM	CG2	THR	337	−23.079	−19.169	−9.723	C
ATOM	N	TYR	338	−24.343	−22.643	−11.985	N
ATOM	CA	TYR	338	−23.729	−23.934	−12.217	C
ATOM	CB	TYR	338	−24.416	−24.993	−11.379	C
ATOM	C	TYR	338	−23.762	−24.378	−13.682	C
ATOM	O	TYR	338	−23.383	−25.493	−14.026	O
ATOM	CG	TYR	338	−23.568	−25.565	−10.292	C
ATOM	CD1	TYR	338	−22.236	−25.927	−10.513	C
ATOM	CD2	TYR	338	−24.147	−25.802	−9.046	C
ATOM	CE1	TYR	338	−21.497	−26.545	−9.507	C
ATOM	CE2	TYR	338	−23.411	−26.411	−8.034	C
ATOM	CZ	TYR	338	−22.098	−26.795	−8.277	C
ATOM	OH	TYR	338	−21.418	−27.465	−7.287	O
ATOM	N	GLY	339	−24.173	−23.424	−14.591	N
ATOM	CA	GLY	339	−24.111	−23.721	−16.01	C
ATOM	C	GLY	339	−25.334	−24.505	−16.464	C
ATOM	O	GLY	339	−26.443	−24.373	−15.942	O
ATOM	N	ASN	340	−25.101	−25.257	−17.604	N
ATOM	CA	ASN	340	−26.191	−26.036	−18.17	C
ATOM	CB	ASN	340	−26.524	−25.799	−19.634	C
ATOM	C	ASN	340	−26.198	−27.515	−17.8	C
ATOM	O	ASN	340	−25.188	−28.131	−17.466	O
ATOM	CG	ASN	340	−25.47	−26.41	−20.502	C
ATOM	OD1	ASN	340	−25.344	−27.622	−20.648	O
ATOM	ND2	ASN	340	−24.639	−25.481	−21.052	N
ATOM	N	LEU	388	−30.765	−24.965	−17.173	N
ATOM	CA	LEU	388	−29.637	−24.46	−16.404	C
ATOM	CB	LEU	388	−29.54	−22.942	−16.453	C
ATOM	C	LEU	388	−29.728	−24.852	−14.933	C
ATOM	O	LEU	388	−30.785	−25.113	−14.356	O
ATOM	CG	LEU	388	−29.205	−22.298	−17.782	C
ATOM	CD1	LEU	388	−28.098	−23.005	−18.523	C
ATOM	CD2	LEU	388	−30.424	−22.172	−18.658	C
ATOM	N	ALA	398	−35.889	−22.88	−19.129	N
ATOM	CA	ALA	398	−36.044	−21.552	−19.7	C
ATOM	CB	ALA	398	−34.943	−20.618	−19.251	C
ATOM	C	ALA	398	−36.046	−21.615	−21.211	C
ATOM	O	ALA	398	−35.39	−22.427	−21.854	O
ATOM	N	ASP	399	−36.893	−20.694	−21.784	N
ATOM	CA	ASP	399	−36.858	−20.444	−23.21	C
ATOM	CB	ASP	399	−38.239	−20.251	−23.829	C
ATOM	C	ASP	399	−35.954	−19.212	−23.354	C
ATOM	O	ASP	399	−35.733	−18.392	−22.468	O
ATOM	CG	ASP	399	−38.247	−20.184	−25.363	C
ATOM	OD1	ASP	399	−37.116	−20.365	−25.93	O
ATOM	OD2	ASP	399	−39.369	−19.86	−25.882	O1−
ATOM	N	PHE	400	−35.483	−19.083	−24.627	N
ATOM	CA	PHE	400	−34.56	−18.038	−24.992	C
ATOM	CB	PHE	400	−33.141	−18.571	−25.139	C
ATOM	C	PHE	400	−34.97	−17.332	−26.27	C
ATOM	O	PHE	400	−34.492	−16.233	−26.549	O
ATOM	CG	PHE	400	−32.584	−19.079	−23.847	C
ATOM	CD1	PHE	400	−32.179	−20.407	−23.749	C
ATOM	CE1	PHE	400	−31.711	−20.913	−22.54	C
ATOM	CZ	PHE	400	−31.651	−20.091	−21.42	C
ATOM	CE2	PHE	400	−32.052	−18.762	−21.512	C
ATOM	CD2	PHE	400	−32.512	−18.255	−22.723	C
ATOM	N	GLY	401	−35.767	−18.029	−27.165	N
ATOM	CA	GLY	401	−36.219	−17.353	−28.371	C
ATOM	C	GLY	401	−35.078	−16.919	−29.288	C
ATOM	O	GLY	401	−34.093	−17.609	−29.541	O
ATOM	N	SER	403	−32.943	−14.891	−28.539	N
ATOM	CA	SER	403	−31.691	−14.692	−27.847	C
ATOM	CB	SER	403	−31.925	−14.71	−26.353	C
ATOM	C	SER	403	−30.655	−15.749	−28.247	C
ATOM	O	SER	403	−29.448	−15.589	−28.049	O
ATOM	OG	SER	403	−31.052	−13.781	−25.724	O
ATOM	N	ARG	404	−31.161	−16.939	−28.747	N
ATOM	CA	ARG	404	−30.26	−17.923	−29.325	C
ATOM	C	ARG	404	−30.241	−17.654	−30.824	C
ATOM	O	ARG	404	−31.151	−17.963	−31.589	O
ATOM	CB	ARG	404	−30.647	−19.349	−28.982	C
ATOM	CG	ARG	404	−30.039	−19.673	−27.637	C
ATOM	CD	ARG	404	−30.267	−21.085	−27.152	C
ATOM	NE	ARG	404	−29.692	−21.2	−25.81	N1+
ATOM	CZ	ARG	404	−28.984	−22.31	−25.348	C
ATOM	NH1	ARG	404	−28.74	−23.394	−26.179	N
ATOM	NH2	ARG	404	−28.465	−22.29	−24.064	N

Example 4

The Use of c-Abl Inhibition Model in the Fitting and Optimization of a Small Molecular Template

N-(4-methyl-3-(4-(pyridin-3-yl)pyrimidin-2-ylamino)phenyl)nicotinamide, which is known as a c-Abl inhibitor (Schindler et al, 2000) was placed inside the c-Abl inhibition model.

Docking and optimization against the c-Abl inhibition model was performed. The docking procedure was carried out using ICM software. A conformation in which the pyridine ring and the hinge residues were in close proximity was selected. Further optimization was carried out using MOE energy minimization tools

Hydrogen bonds between the pyridine and the critical amino group of the hinge from M336 and the compound's amino group and T333 were identified. The presence of these hydrogen bonds is in agreement with experimental X-ray crystallographic data for the complex c-Abl kinase/Gleevec.

The overall protein-ligand interaction energy was negative (−68 kcal/mol), as it is calculated using MOE energy calculation tools, indicating a high probability of interaction.

(−)-trans-3-(5,6-dihydro-4H-pyrrolo[3,2,1-ij]quinolin-1-yl)-4(1H-indol-3-yl)pyrrolidine-2,5-dione, the selective c-Met inhibitor, was also docked in the c-Abl inhibition model where the pyrrolidine carbonyl ring makes a hydrogen bonds with the amino group of M336.

Further energy optimization using MOE tools was carried out. Two hydrogen bonds where observed between the pyrrolidine ring and hinge residues M336 and E334. Although the overall interaction energy is negative (−50 kcal/mol), a lack of feature complementarity between the selective c-Met inhibitor and c-Abl inhibitor model is clearly observed.

The hydrophobic tricyclic ring is placed in a polar region of the c-Abl inhibition model. Additionally no interactions between the selective c-Met inhibitor and a critical residue in c-Abl T333 are observed. N340 and S403 will also lack favorable electrostatic interactions with the selective c-Met inhibitor. Taken together, it is expected that the selective c-Met inhibitor does not bind to the inactive form of c-Abl kinase. This conclusion is consistent with the observation that the selective c-Met inhibitor does not inhibit the activity of c-Abl effectively, while it inhibits the activity of c-Met effectively (WO 2006/086484 A1).

Example 5

The Construction of FGFR-2 Inhibition Model

A 3-dimensional inhibition model of FGFR-2 was created using the process.

The sequence alignment of FGFR-2 kinase and the amino acid sequence of c-Met were performed using MOE alignment tools. Known kinase motifs: the P-loop F492, the DFG motif (644-646), the hinge residue A567, the salt bridge K517-E534, and tyrosine residues Y656 and Y657 in the A-loop, residues which are phosphorylated upon activation, were superposed.

The identification of conserved amino acid residues between c-Met and FGFR-2; generation of atomic coordinates of all conserved amino acids in FGFR-2 from the electronic representation of c-Met residues; rotamer search of the structurally variable and replacement of non-conserved residues of c-Met with residues from FGFR-2 sequence; building of side chain conformations; and final refinement and evaluation of the FGFR-2 structure was carried out in an automated fashion using MOE homology tools.

Example 6

The Similarity Assessment of FGFR2 Inhibition Model

The FGFR-2 model is 78% similar to c-Met1 (Table 6). One residue shows negative weights: E565 (P1158). The inhibition model has no significant changes in polarity factor. The only differences are in size: I548 (L1140), gate keeper V564 (L1157), hinge residue A567 (M1160), and L633 (M1211).

Although, the FGFR-2 binding pocket is 78% similar, the presence of a smaller gate keeper residue V564, hinge residue (A567) and L633, results in a larger binding site.

TABLE 6

(SEQ ID NOs: 11 and 13, respectively)

CMET		FGFR-2
(SEQ ID NO: 11)	weight	(SEQ ID NO: 13)	weight

PROTEIN	I_1084	2	L_487	1
	G_1085	2	G_488	2
	F_1089	2	F_492	2
	V_1092	2	V_495	2
	A_1108	1	A_515	1
	V_1109b	0.5	V_516b	0.5
	K_1110b	0.5	K_517	0.5
	L_1140	1	I_548	0.5
	V_1155	1	V_562	1
	L_1157	1	V_564	0.5
	P_1158	1	E_565	−1
	Y_1159b	0.5	Y_566b	0.5
	M_1160b	1	A_567	0.5
	K_1161b	0.5	S_568	0.5
	H_1162b	0.5	K_569	0.5
	G_1163	0.5	G_570	0.5
	D_1164	1	N_571	0.5
	M_1211	1	L_633	0.5
	A_1221	1	A_643	1
	D_1222	1	D_644	1
	F_1223	1	F_645	1
	A_1226	1	A_648	1
	R_1227	2	R_649	2
Similarity		25		19.5
assessmet value

The amino acids of the inhibition model of FGFR-2 derived from the c-Met inhibition model are described herein and are defined by a set of structure coordinates set forth in Table 7.

TABLE 7

(SEQ ID NO: 14)

ATOM	1	N	LEU	487	−15.283	−12.748	−21.3	N
ATOM	2	CA	LEU	487	−15.06	−13.48	−22.53	C
ATOM	3	CB	LEU	487	−13.576	−13.545	−22.839	C
ATOM	4	C	LEU	487	−15.629	−14.889	−22.364	C
ATOM	5	O	LEU	487	−15.735	−15.456	−21.281	O
ATOM	6	CG	LEU	487	−13.279	−13.768	−24.307	C
ATOM	7	CD1	LEU	487	−13.885	−12.686	−25.169	C
ATOM	8	CD2	LEU	487	−11.787	−13.812	−24.52	C
ATOM	9	N	GLY	488	−15.929	−15.472	−23.57	N
ATOM	10	CA	GLY	488	−16.524	−16.79	−23.653	C
ATOM	11	C	GLY	488	−16.466	−17.181	−25.116	C
ATOM	12	O	GLY	488	−15.582	−16.783	−25.867	O
ATOM	13	N	PHE	492	−23.749	−19.863	−29.63	N
ATOM	14	CA	PHE	492	−25.002	−19.22	−29.231	C
ATOM	15	CB	PHE	492	−25.587	−19.86	−27.979	C
ATOM	16	C	PHE	492	−25.001	−17.689	−29.085	C
ATOM	17	O	PHE	492	−26.019	−17.067	−28.781	O
ATOM	18	CG	PHE	492	−24.719	−19.956	−26.759	C
ATOM	19	CD1	PHE	492	−24.804	−21.1	−25.968	C
ATOM	20	CD2	PHE	492	−23.836	−18.942	−26.382	C
ATOM	21	CE1	PHE	492	−24.02	−21.234	−24.825	C
ATOM	22	CE2	PHE	492	−23.048	−19.07	−25.241	C
ATOM	23	CZ	PHE	492	−23.141	−20.219	−24.461	C
ATOM	24	N	GLY	493	−23.77	−17.113	−29.309	N
ATOM	25	CA	GLY	493	−23.455	−15.731	−29.017	C
ATOM	26	C	GLY	493	−22.503	−15.689	−27.832	C
ATOM	27	O	GLY	493	−21.708	−16.582	−27.563	O
ATOM	28	N	GLN	494	−22.526	−14.481	−27.17	N
ATOM	29	CA	GLN	494	−21.732	−14.296	−25.963	C
ATOM	30	CB	GLN	494	−21.048	−12.945	−26.027	C
ATOM	31	C	GLN	494	−22.718	−14.31	−24.793	C
ATOM	32	O	GLN	494	−23.886	−13.945	−24.911	O
ATOM	33	CG	GLN	494	−20.061	−12.71	−24.903	C
ATOM	34	CD	GLN	494	−19.703	−11.252	−24.848	C
ATOM	35	OE1	GLN	494	−20.153	−10.395	−25.598	O
ATOM	36	NE2	GLN	494	−18.807	−10.945	−23.868	N
ATOM	37	N	VAL	495	−22.162	−14.629	−23.575	N
ATOM	38	CA	VAL	495	−22.939	−14.409	−22.373	C
ATOM	39	CB	VAL	495	−22.86	−15.58	−21.402	C
ATOM	40	C	VAL	495	−22.459	−13.103	−21.75	C
ATOM	41	O	VAL	495	−21.278	−12.855	−21.519	O
ATOM	42	CG1	VAL	495	−21.452	−15.945	−20.985	C
ATOM	43	CG2	VAL	495	−23.702	−15.34	−20.173	C
ATOM	44	N	VAL	496	−23.484	−12.248	−21.413	N
ATOM	45	CA	VAL	496	−23.179	−11.07	−20.645	C
ATOM	46	CB	VAL	496	−22.851	−9.761	−21.324	C
ATOM	47	C	VAL	496	−23.249	−11.167	−19.14	C
ATOM	48	O	VAL	496	−24.216	−11.678	−18.581	O
ATOM	49	CG1	VAL	496	−23.894	−9.375	−22.346	C
ATOM	50	CG2	VAL	496	−21.48	−9.77	−21.952	C
ATOM	51	N	VAL	514	−25.883	−11.411	−12.079	N
ATOM	52	CA	VAL	514	−26.859	−11.989	−12.989	C
ATOM	53	CB	VAL	514	−28.229	−11.335	−12.845	C
ATOM	54	C	VAL	514	−26.37	−11.928	−14.442	C
ATOM	55	O	VAL	514	−25.251	−11.529	−14.762	O
ATOM	56	CG1	VAL	514	−28.19	−9.827	−12.937	C
ATOM	57	CG2	VAL	514	−28.95	−11.778	−11.595	C
ATOM	58	N	ALA	515	−27.267	−12.383	−15.386	N
ATOM	59	CA	ALA	515	−26.791	−12.451	−16.749	C
ATOM	60	CB	ALA	515	−26.728	−13.861	−17.274	C
ATOM	61	C	ALA	515	−27.514	−11.523	−17.703	C
ATOM	62	O	ALA	515	−28.703	−11.235	−17.586	O
ATOM	63	N	VAL	516	−26.711	−11.107	−18.744	N
ATOM	64	CA	VAL	516	−27.23	−10.248	−19.791	C
ATOM	65	CB	VAL	516	−26.383	−8.987	−19.971	C
ATOM	66	C	VAL	516	−27.215	−10.994	−21.123	C
ATOM	67	O	VAL	516	−26.31	−11.744	−21.483	O
ATOM	68	CG1	VAL	516	−27.079	−7.964	−20.836	C
ATOM	69	CG2	VAL	516	−26.019	−8.316	−18.674	C
ATOM	70	N	LYS	517	−28.253	−10.572	−21.928	N
ATOM	71	CA	LYS	517	−28.249	−10.726	−23.368	C
ATOM	72	CB	LYS	517	−27.776	−11.986	−24.071	C
ATOM	73	C	LYS	517	−28.797	−9.577	−24.194	C
ATOM	74	O	LYS	517	−29.796	−8.954	−23.846	O
ATOM	75	CG	LYS	517	−28.92	−12.668	−24.793	C
ATOM	76	CD	LYS	517	−28.518	−13.807	−25.713	C
ATOM	77	CE	LYS	517	−27.58	−13.411	−26.843	C
ATOM	78	NZ	LYS	517	−27.474	−14.567	−27.763	N1+
ATOM	79	N	ILE	548	−36.281	−20.184	−15.458	N
ATOM	80	CA	ILE	548	−35.436	−19.031	−15.752	C
ATOM	81	CB	ILE	548	−34.664	−19.219	−17.06	C
ATOM	82	C	ILE	548	−36.408	−17.853	−15.822	C
ATOM	83	O	ILE	548	−37.458	−17.886	−16.452	O
ATOM	84	CG1	ILE	548	−33.392	−20.028	−16.883	C
ATOM	85	CG2	ILE	548	−34.252	−17.907	−17.69	C
ATOM	86	CD1	ILE	548	−33.627	−21.413	−16.336	C
ATOM	87	N	VAL	562	−31.795	−7.739	−22.294	N
ATOM	88	CA	VAL	562	−32.342	−8.134	−21.014	C
ATOM	89	CB	VAL	562	−33.499	−9.124	−21.117	C
ATOM	90	C	VAL	562	−31.274	−8.662	−20.068	C
ATOM	91	O	VAL	562	−30.216	−9.164	−20.451	O
ATOM	92	CG1	VAL	562	−34.749	−8.496	−21.679	C
ATOM	93	CG2	VAL	562	−33.149	−10.372	−21.896	C
ATOM	94	N	VAL	564	−31.237	−11.518	−16.699	N
ATOM	95	CA	VAL	564	−31.896	−12.694	−16.127	C
ATOM	96	CB	VAL	564	−32.086	−13.727	−17.235	C
ATOM	97	C	VAL	564	−31.098	−13.219	−14.919	C
ATOM	98	O	VAL	564	−29.92	−12.905	−14.743	O
ATOM	99	CG1	VAL	564	−32.973	−14.887	−16.875	C
ATOM	100	CG2	VAL	564	−30.789	−14.232	−17.825	C
ATOM	101	N	GLU	565	−31.782	−14.111	−14.099	N
ATOM	102	CA	GLU	565	−31.085	−14.734	−12.973	C
ATOM	103	CB	GLU	565	−31.992	−15.005	−11.782	C
ATOM	104	C	GLU	565	−29.941	−15.717	−13.297	C
ATOM	105	O	GLU	565	−29.737	−16.147	−14.431	O
ATOM	106	CG	GLU	565	−32.392	−16.452	−11.541	C
ATOM	107	CD	GLU	565	−31.43	−17.186	−10.607	C
ATOM	108	OE1	GLU	565	−31.684	−18.423	−10.464	O1−
ATOM	109	OE2	GLU	565	−30.465	−16.501	−10.16	O
ATOM	110	N	TYR	566	−29.152	−16.054	−12.215	N
ATOM	111	CA	TYR	566	−27.823	−16.588	−12.406	C
ATOM	112	CB	TYR	566	−26.781	−15.718	−11.724	C
ATOM	113	C	TYR	566	−27.641	−18.044	−11.99	C
ATOM	114	O	TYR	566	−28.024	−18.531	−10.93	O
ATOM	115	CG	TYR	566	−25.444	−15.789	−12.391	C
ATOM	116	CD1	TYR	566	−25.275	−15.305	−13.689	C
ATOM	117	CE1	TYR	566	−24.024	−15.355	−14.299	C
ATOM	118	CD2	TYR	566	−24.353	−16.321	−11.703	C
ATOM	119	CE2	TYR	566	−23.098	−16.379	−12.308	C
ATOM	120	CZ	TYR	566	−22.945	−15.891	−13.6	C
ATOM	121	OH	TYR	566	−21.693	−15.924	−14.174	O
ATOM	122	N	ALA	567	−26.891	−18.744	−12.906	N
ATOM	123	CA	ALA	567	−26.494	−20.101	−12.647	C
ATOM	124	CB	ALA	567	−26.697	−20.945	−13.884	C
ATOM	125	C	ALA	567	−25.023	−20.106	−12.297	C
ATOM	126	O	ALA	567	−24.142	−19.656	−13.025	O
ATOM	127	N	SER	568	−24.777	−20.692	−11.076	N
ATOM	128	CA	SER	568	−23.392	−20.872	−10.669	C
ATOM	129	CB	SER	568	−23.287	−21.156	−9.18	C
ATOM	130	C	SER	568	−22.779	−22.049	−11.436	C
ATOM	131	O	SER	568	−21.589	−22.069	−11.739	O
ATOM	132	OG	SER	568	−23.589	−19.986	−8.424	O
ATOM	133	N	LYS	569	−23.612	−23.14	−11.637	N
ATOM	134	CA	LYS	569	−23.125	−24.243	−12.446	C
ATOM	135	CB	LYS	569	−23.916	−25.503	−12.162	C
ATOM	136	C	LYS	569	−23.157	−23.937	−13.939	C
ATOM	137	O	LYS	569	−22.249	−24.312	−14.674	O
ATOM	138	CG	LYS	569	−23.179	−26.423	−11.212	C
ATOM	139	CD	LYS	569	−21.753	−26.645	−11.661	C
ATOM	140	CE	LYS	569	−21.016	−27.517	−10.675	C
ATOM	141	NZ	LYS	569	−19.648	−27.708	−11.215	N1+
ATOM	142	N	GLY	570	−24.319	−23.373	−14.413	N
ATOM	143	CA	GLY	570	−24.453	−23.038	−15.812	C
ATOM	144	C	GLY	570	−25.524	−23.921	−16.407	C
ATOM	145	O	GLY	570	−26.559	−24.245	−15.824	O
ATOM	146	N	ASN	571	−25.286	−24.249	−17.721	N
ATOM	147	CA	ASN	571	−26.274	−25.077	−18.386	C
ATOM	148	CB	ASN	571	−26.321	−24.743	−19.86	C
ATOM	149	C	ASN	571	−26.109	−26.524	−17.918	C
ATOM	150	O	ASN	571	−25.024	−27.043	−17.664	O
ATOM	151	CG	ASN	571	−25.797	−25.724	−20.862	C
ATOM	152	OD1	ASN	571	−25.578	−26.912	−20.665	O
ATOM	153	ND2	ASN	571	−25.585	−25.128	−22.072	N
ATOM	154	N	LEU	633	−31.139	−24.989	−17.022	N
ATOM	155	CA	LEU	633	−30.144	−24.369	−16.179	C
ATOM	156	CB	LEU	633	−30.509	−22.921	−15.923	C
ATOM	157	C	LEU	633	−29.959	−25.091	−14.857	C
ATOM	158	O	LEU	633	−30.903	−25.516	−14.191	O
ATOM	159	CG	LEU	633	−29.311	−21.997	−15.935	C
ATOM	160	CD1	LEU	633	−28.592	−22.042	−17.263	C
ATOM	161	CD2	LEU	633	−29.768	−20.585	−15.665	C
ATOM	162	N	ALA	643	−36.35	−23.324	−19.23	N
ATOM	163	CA	ALA	643	−36.544	−22.152	−20.052	C
ATOM	164	CB	ALA	643	−35.423	−21.153	−19.88	C
ATOM	165	C	ALA	643	−36.674	−22.565	−21.505	C
ATOM	166	O	ALA	643	−36.305	−23.66	−21.933	O
ATOM	167	N	ASP	644	−37.2	−21.581	−22.31	N
ATOM	168	CA	ASP	644	−37.014	−21.613	−23.75	C
ATOM	169	C	ASP	644	−35.623	−20.964	−23.979	C
ATOM	170	O	ASP	644	−34.857	−20.648	−23.073	O
ATOM	171	CB	ASP	644	−38.16	−20.848	−24.389	C
ATOM	172	CG	ASP	644	−38.22	−20.841	−25.905	C
ATOM	173	OD1	ASP	644	−37.259	−21.446	−26.484	O
ATOM	174	OD2	ASP	644	−39.176	−20.165	−26.375	O1−
ATOM	175	N	PHE	645	−35.297	−20.757	−25.29	N
ATOM	176	CA	PHE	645	−34.1	−20.044	−25.673	C
ATOM	177	CB	PHE	645	−32.96	−21.008	−25.921	C
ATOM	178	C	PHE	645	−34.416	−19.213	−26.908	C
ATOM	179	O	PHE	645	−34.014	−18.058	−27.023	O
ATOM	180	CG	PHE	645	−31.717	−20.552	−25.231	C
ATOM	181	CD1	PHE	645	−31.097	−19.35	−25.573	C
ATOM	182	CD2	PHE	645	−31.156	−21.354	−24.239	C
ATOM	183	CE1	PHE	645	−29.924	−18.956	−24.935	C
ATOM	184	CE2	PHE	645	−29.98	−20.965	−23.603	C
ATOM	185	CZ	PHE	645	−29.366	−19.766	−23.952	C
ATOM	186	N	GLY	646	−35.072	−19.861	−27.936	N
ATOM	187	CA	GLY	646	−35.65	−19.091	−29.017	C
ATOM	188	C	GLY	646	−34.659	−18.179	−29.727	C
ATOM	189	O	GLY	646	−33.522	−18.494	−30.065	O
ATOM	190	N	ALA	648	−33.161	−15.84	−28.383	N
ATOM	191	CA	ALA	648	−32.005	−15.478	−27.595	C
ATOM	192	CB	ALA	648	−32.175	−15.893	−26.152	C
ATOM	193	C	ALA	648	−30.73	−16.122	−28.147	C
ATOM	194	O	ALA	648	−29.621	−15.677	−27.855	O
ATOM	195	N	ARG	649	−30.876	−17.281	−28.889	N
ATOM	196	CA	ARG	649	−29.696	−17.894	−29.479	C
ATOM	197	CB	ARG	649	−29.859	−19.371	−29.767	C
ATOM	198	C	ARG	649	−29.344	−17.17	−30.777	C
ATOM	199	O	ARG	649	−30.151	−16.969	−31.678	O
ATOM	200	CG	ARG	649	−29.749	−20.201	−28.508	C
ATOM	201	CD	ARG	649	−29.878	−21.666	−28.861	C
ATOM	202	NE	ARG	649	−30.114	−22.502	−27.687	N1+
ATOM	203	CZ	ARG	649	−29.201	−22.79	−26.717	C
ATOM	204	NH1	ARG	649	−27.944	−22.278	−26.724	N
ATOM	205	NH2	ARG	649	−29.564	−23.67	−25.761	N

Example 7

The Use of FGFR-2 Inhibition Model in the Fitting and Optimization of a Small Molecular Template

Virtual screening of ArQule's collection of kinase inhibitors was carried out using the described FGFR-2 inhibition model. Additional filters were applied for compound selection: molecular weight between 250 and 350, number of hetero atoms less or equal 5, number of hydrogen bonds donors less or equal 3, AlogP less than 5.

Docking and optimization against the FGFR-2 inhibition model was performed. The docking procedure was carried out using ICM software. Further optimization was carried out using MOE energy minimization tools.

ARQ13194808, a racemic mixture of two enantiomers, was identified from this virtual screening (MW 342, logP 4.17). Individual enantiomers were optimized in the model binding site. A single enantiomer was determined to have a preferential binding interaction.

Hydrogen bonds between the pyridine and the critical amino and carbonyl groups of the hinge residue A567 were identified. The fused benzene ring makes aromatic interactions with the F492 from the P-loop.

The overall protein-ligand interaction energy was negative (−40 kcal/mol) and the compounds energy was low (37 kcal/mol) just 3 kcal/mol above the energy minimum in the absence of the protein, as it is calculated using MOE energy calculation tools, indicating a high probability of interaction.

Based on the analysis of these results, ARQ13194808 could be selected as a starting point for designing a FGFR-2 kinase inhibitor.

(−)-trans-3-(5,6-dihydro-4H-pyrrolo[3,2,1-ij]quinolin-1-yl)-4(1H-indol-3-yl)pyrrolidine-2,5-dione, the selective c-Met inhibitor, was also docked in the FGFR-2 inhibition model. A docking pose, where the pyrrolidine carbonyl ring was making hydrogen bonds with the amino group of A567, was selected.

Further energy optimization using MOE tools was carried out. Two hydrogen bonds where observed between the pyrrolidine ring and hinge residue A567. The overall interaction energy is negative (−37 kcal/mol) and the compound's energy is equal to 51 kcal/mol, which is 5 kcal/mol above the energy minimum in the absence of the protein.

Example 8

Cloning, Expression and Purification of c-Met2

As used herein, the c-Met protein of Table 1A is related to the cMet1 protein. cMet1 contains a mutation at residue position 1166, a substitution of glutamine for arginine. Wild type cMet, which has the same sequence as cMet2 of the present application, contains an arginine residue at position 1166. cMet1 contains a glutamine residue at position 1166. Tables 1B and 4, relate to the cMet2 protein. Table 1B provides the complete sequence and atomic structure of the cMet2/the selective cMet inhibitor complex.

The DNA fragment encoding the kinase domain (1038-1346) of cMet was PCR amplified using full length human cDNA with primers designed to contain a non-cleavable N-terminus 6×His tag. The resulting DNA fragment was inserted into pET28a vector between NcoI and SalI sites. A bicistronic form of this vector was designed for co-expression with phosphatase by sequentially inserting the PTP1B gene (1-283) between Sal1 and Not1 sites. A second ribosome binding site was incorporated into the PTP1B primer after the Sal1 site. The construct generated initially contained a random mutation in cMet gene at position 1166 (Arginine to Glutamine), which was corrected to the wild-type form using site-directed mutagenesis kit (Stratagene). All constructs and mutants were verified by sequencing the entire coding region from both 5′ and 3′ directions.

Plasmids were transformed into E. Coli strain BL21 (DE3)-RILP cells. The culture was grown at 25° C. in 2×YT medium up to an A₆₀₀of 0.6 when overexpression of cMet protein was induced with 0.25 mM IPTG at 12° C. The incubation continued at 12° C. for 16 h before harvesting. Frozen cell pastes suspended in lysis buffer (50 mM Tris pH 8.5, 150 mM NaCl, 0.01% 2-mercapto ethanol, 30 mM imidazole, 1 mM PMSF, 100 μg/ml lysozyme, 10 μg/ml DNAase-1) were lysed by using Branson 450D sonifier on ice at 60% power. The lysate was clarified by centrifugation at 30,000×g at 4° C. for 45 min, and the supernatant loaded onto a 10 ml Ni-Chelating Sepharose column (GE Healthcare). The column washed with 25 mM Tris pH 8.5, 100 mM NaCl, 0.01% 2-mercapto ethanol, 30 mM imidazole, pH 8.5 and the unphosphorylated cMet was eluted with 500 mM imidazole in the same buffer. cMet protein was further purified with an anion exchange column, Fast Trap QFF 5 ml column (GE Healthcare), after dialysis with 25 mM Tris pH 8.5 and 10% glycerol. Eluted protein was concentrated to 20 mg/ml and stored at −80° C. in buffer composed of 25 mM Tris pH 8.5, 100 mM NaCl, 0.1% 2-mercaptoethanol and 10% glycerol.

Crystallization of cMet2 in Complex with the Selective c-Met Inhibitor

Co-crystals of unphosphorylated cMet kinase domain and the selective c-Met inhibitor were grown by the hanging drop vapor diffusion method at 4° C. using a drop size of 1 μl from 12% ethanol, 14% ethylene glycol and 0.1M imidazole buffer, pH 8.5. For cMet/the selective c-Met inhibitor complex preparation, 10 mM the selective c-Met inhibitor solution was prepared in 50% DMSO/water, diluted to 1.2 mM with buffer solution (25 mM Tris pH 8.5, 100 mM NaCl), and immediately mixed in equal volumes with cMet (20 mg/ml). The complex was incubated on ice for 30 min and centrifuged at 13,000×g prior to crystallization. Large single crystals suitable for data collection were obtained after microseeding from thin needle-like clusters generated from initial screening. Crystals were harvested into a cryoprotected solution of 12% ethanol, 20% ethylene glycol, 10% glycerol and 0.1M imidazole buffer, pH 8.5, and flash-frozen in liquid nitrogen. X-ray diffraction data were collected at beamline X29 of the National Synchrotron Light Source (Brookhaven, N.Y.) on a CCD detector under cryogenic temperature. The diffraction data was integrated, processed and scaled using HKL2000 at NSLS site. The crystals belong to P1 space group with unit cell dimension of a=53.47 Å, b=58.67 Å, c=64.96 Å, α=88.41, β=68.10, γ=85.52, and contain two molecules of cMet in the asymmetric unit with solvent content of 46%.

The structure was determined by molecular replacement utilizing MOLREP as implemented in CCP4 package. The atomic coordinates of the published cMet structure 2G15 was used as search model and the activation and p-loop residues were deleted from the model. The initial electron density map for the selective c-Met inhibitor, P-loop and activation loop regions were well resolved, leaving no ambiguities for the binding mode of the inhibitor. Structure refinement consisted of iterative cycles of model building in Coot, followed by simulated annealing, B-factor minimization, and restrained B-factor refinement in CNX. The residues for activation loop, P-loop and the N-terminal regions different from the initial model were built during the refinement process. The selective c-Met inhibitor conformation was identical in both copies of cMet and was built during the final stages of refinement. Water molecules were added based on Fo-Fc maps (3σ) with density recapitulated in 2Fo-Fc maps (1σ). All waters satisfy the hydrogen-bonding criteria as implemented in the CNX programs Waterpick and Waterdelete. Final rounds of refinement were performed using REFMAC5 restrained refinement protocol. The final model consists of two copies of cMet with residues from 1046 to 1346, two selective c-Met inhibitor molecules and 600 hundred water molecules with crystallographic R value of 19.8% (R_free=25.9%). The data collection and refinement statistics are summarized in Table 8.

TABLE 8

Diffraction data and refinement statistics

Data collection

	Space group	P1
	Cell dimensions a, b, c (Å)	53.47, 58.67, 64.96
	Cell angles α, β, γ (deg)	88.41, 68.10, 85.52
	Resolution (Å)	50.0-1.93
	Unique reflections	47320
	Completeness	93% (96%)
	R_sym	0.102 (0.28)
	Mean I/σ(I)	6.9
	Redundancy	2

Refinement

	R^a	0.198
	R_free	0.259
	RMSD Bond distance (Å)	0.018
	RMSD Bond angle (deg)	1.951

	^aR and R_free= (Σ\|Fobs − Fcalc\|)/(Σ\|Fobs\|). R_freewas calculated over randomly chosen 5% of the reflections not used in refinement. Parentheses indicate the outer resolution shell.

Other embodiments are within the following claims. While several embodiments have been shown and described, various modifications may be made without departing from the spirit and scope of the present invention.

Claims

What is claimed is:

1. A method for generating a kinase inhibition model, comprising:

a) performing sequence alignment between the amino acid sequences of the kinase and the c-Met kinase domain of SEQ ID NO: 2;

b) identifying non-conserved amino acids between the kinase and the c-Met kinase domain;

c) replacing in the crystal structure of the c-Met kinase domain the amino acids corresponding to the non-conserved amino acids with the amino acids of the kinase corresponding to the non-conserved amino acids; and

d) refining the crystal structure with the amino acids of the kinase corresponding to the non-conserved amino acids.

2. The method of claim 1, wherein the kinase is a tyrosine kinase.

3. The method of claim 2, wherein the tyrosine kinase is a receptor tyrosine kinase.

4. The method of claim 3, wherein the receptor tyrosine kinase is selected from the group consisting of EGFR, VEGFR, FGFR, PDGFR, HER2, Kit, IRK, RET, AXL, FLT-3, EphB4, c-Met homologs and c-Met mutants.

5. The method of claim 3, wherein the receptor tyrosine kinase is FGFR-2.

6. The method of claim 2, wherein the tyrosine kinase is a non-receptor tyrosine kinase.

7. The method of claim 6, wherein the non-receptor tyrosine kinase is selected from the group consisting of c-Abl, Src, Fyn, Lyn and Yes.

8. The method of claim 6, wherein the non-receptor tyrosine kinase is c-Abl.

9. The method of claim 1, wherein the kinase is a serine/threonine kinase.

10. The method of claim 9, wherein the serine/threonine kinase is selected from the group consisting of B-Raf, PIM, PAK, MEK, MAPK, AKT and Aurora.

11. A kinase inhibition model generated according to the method of claim 1.

12. The kinase inhibition model of claim 11, wherein the kinase inhibition model is a c-Abl inhibition model, comprising the crystallography coordinates of c-Abl amino acids L_—266, G_—267, Y_—271, V_—274, A_—287, V_—288, K_—289, V_—317, I_—331, T_—333, E_—334, F_—335, M_—336, T_—337, Y_—338, G_—339, N_—340, L_—388, A_—398, D_—399, F_—400, S_—403 and R_—404, wherein the crystallography coordinates are within about a root mean square deviation of not more than about 1.5 Å from the backbone atoms of the amino acids according to Table 5.

13. The kinase inhibition model of claim 11, wherein the kinase inhibition model is a FGFR-2 inhibition model, comprising the crystallography coordinates of FGFR-2 amino acids L_—487, G_—488, F_—492, V_—495, A_—515, V_—516, K_—517, I_—548, V 562, V 564, E_—565, Y 566, A 567, S 568, K 569, G_—570, N_—571, L_—633, A_—643, D_—644, F_—645, A 648 and R_—649, wherein the crystallography coordinates are within about a root mean square deviation of not more than about 1.5 Å from the backbone atoms of the amino acids according to Table 7.

14. A method comprising comparing the inhibition models of kinases generated according to the method of claim 1.

15. The method of claim 14, comprising applying a weighting system.

16. The method of claim 15, wherein the weighting system comprises positive scores for conserved residue substitutions, residues critical for ligand binding, residues with side chain lining the inhibition model, and residues which are part of backbone of the inhibition model; and negative scores for additions, deletions and changes in backbone flexibility, lack of residue alignment, dramatic changes in size and/or polarity inside the inhibition model, and lack of alignment of critical residues.

17. The method of claim 16, wherein the positive score for residues critical for ligand binding is 2, the positive score for residues with side chain lining the inhibition model is 1, and the positive score for residues which are part of backbone of the inhibition model is 1; and the negative score for additions, deletions and changes in backbone flexibility or lack of residue alignment is −1, and the negative score for dramatic changes in size and/or polarity inside the inhibition model or lack of alignment of critical residues is −2.

18. The method of claim 16, wherein the positive score for conserved residue substitutions is 1.

19. A c-Abl inhibition model comprising the crystallography coordinates of c-Abl amino acids L_—266, G_—267, Y_—271, V_—274, A_—287, V_—288, K_—289, V_—317, I_—331, T_—333, E_—334, F_—335, M_—336, T_—337, Y_—338, G_—339, N_—340, L_—388, A_—398, D_—399, F_—400, S_—403, and R_—404 which are within about a root mean square deviation of not more than about 1.5 Å from the backbone atoms of said amino acids according to Table 5.

20. An FGFR-2 inhibition model comprising the crystallography coordinates of FGFR-2 amino acids L_—487, G_—488, F_—492, V_—495, A_—515, V_—516, K_—517, I_—548, V 562, V 564, E_—565, Y 566, A 567, S 568, K 569, G_—570, N_—571, L_—633, A_—643, D_—644, F_—645, A 648, and R_—649 which are within about a root mean square deviation of not more than about 1.5 Å from the backbone atoms of said amino acids according to Table 7.

Resources

Images & Drawings included:

Fig. 01 - Novel Kinase Inhibition Models and Their Uses — Fig. 01

Fig. 02 - Novel Kinase Inhibition Models and Their Uses — Fig. 02

Fig. 03 - Novel Kinase Inhibition Models and Their Uses — Fig. 03

Fig. 04 - Novel Kinase Inhibition Models and Their Uses — Fig. 04

Fig. 05 - Novel Kinase Inhibition Models and Their Uses — Fig. 05

Sources:

United States Patent and Trademark Office - verify current appl. status at the USPTO↗

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