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Inventor profile of:

James J. Smith

City:

Durham, North Carolina

Country:

United States

Published Applications:

Last publication date:

2012-10-18

Top Assignees for applications by James J. Smith

The entities that hold a legal rights for patent applications filed by inventor Smith James J.:

DUKE UNIVERSITY 14 Durham, NC United States
DUKE UNIVERSITY 2 Research Triangle Park, NC United States
PRECISION BIOSCIENCES, INC. 1 Durham, NC United States
PRECISION BIOSCIENCES, INC. 1 Research Triangle Park, NC United States

Recent patent applications by Smith James J.

James J. Smith from Durham, US has applied for patents for these inventions. The list has both pending applications and granted patents:

#1 | 2012-10-18

US20120266266A1

Chemistry; metallurgy

Method for producing genetically-modified cells with rationally-designed meganucleases with altered sequence specificity

#2 | 2012-10-18

US20120264189A1

Chemistry; metallurgy

Rationally-designed meganucleases with altered sequence specificity and heterodimer formation

#3 | 2012-03-22

US20120070877A1

Chemistry; metallurgy

RATIONALLY DESIGNED MEGANUCLEASES WITH ALTERED SEQUENCE SPECIFICITY AND DNA-BINDING AFFINITY

#4 | 2012-02-16

US20120040406A1

Chemistry; metallurgy

Methods of cleaving DNA with rationally-designed meganucleases

#5 | 2012-02-16

US20120040405A1

Chemistry; metallurgy

Methods of cleaving DNA with rationally-designed meganucleases

#6 | 2012-02-02

US20120030783A1

Chemistry; metallurgy

RATIONALLY DESIGNED MEGANUCLEASES WITH ALTERED SEQUENCE SPECIFICITY AND DNA-BINDING AFFINITY

#7 | 2012-02-02

US20120028315A1

Chemistry; metallurgy

Methods of cleaving DNA with rationally-designed meganucleases

#8 | 2012-02-02

US20120028314A1

Chemistry; metallurgy

Methods of cleaving DNA with rationally-designed meganucleases

#9 | 2012-01-26

US20120021521A1

Chemistry; metallurgy

Methods of cleaving DNA with rationally-designed meganucleases

#10 | 2012-01-26

US20120021520A1

Chemistry; metallurgy

Methods of cleaving DNA with rationally-designed meganucleases

#11 | 2012-01-26

US20120021465A1

Chemistry; metallurgy

Method of cleaving DNA with rationally-designed meganucleases

#12 | 2012-01-19

US20120015421A1

Chemistry; metallurgy

Rationally-designed meganucleases with altered sequence specificity and DNA-binding affinity

#13 | 2012-01-19

US20120015406A1

Chemistry; metallurgy

Methods of cleaving DNA with rationally-designed meganucleases

#14 | 2011-08-18

US20110202479A1

Chemistry; metallurgy

RECOGNITION SEQUENCES FOR I-CREI-DERIVED MEGANUCLEASES AND USES THEREOF

#15 | 2011-05-26

US20110123509A1

Chemistry; metallurgy

FUSION MOLECULES OF RATIONALLY-DESIGNED DNA-BINDING PROTEINS AND EFFECTOR DOMAINS

#16 | 2011-02-10

US20110033935A1

Chemistry; metallurgy

RATIONALLY-DESIGNED MEGANUCLEASES WITH RECOGNITION SEQUENCES FOUND IN DNASE HYPERSENSITIVE REGIONS OF THE HUMAN GENOME

#17 | 2010-12-09

US20100311817A1

Chemistry; metallurgy

Rationally-designed single-chain meganucleases with non-palindromic recognition sequences

#18 | 2010-03-18

US20100071083A1

Chemistry; metallurgy

TEMPERATURE-DEPENDENT MEGANUCLEASE ACTIVITY

#19 | 2009-02-19

US20090048430A1

Chemistry; metallurgy

Site specific protein modification

#20 | 2007-05-24

US20070117128A1

Chemistry; metallurgy

Rationally-designed meganucleases with altered sequence specificity and DNA-binding affinity

InventorID:

3076830 ⎘