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Philip N Bryan

Showing results (11-20 of 32) with videos related to

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Biochemistry|October 26, 2005
Solution NMR structures of IgG binding domains with artificially evolved high levels of sequence identity but different foldsYanan He, Deok Cheon Yeh, Patrick Alexander, et al.
Protein Science : a Publication of the Protein Society|June 15, 2007
An artificially evolved albumin binding module facilitates chemical shift epitope mapping of GA domain interactions with phylogenetically diverse albuminsYanan He, Yihong Chen, David A Rozak, et al.
Biophysical Journal|January 8, 2015
Subdomain interactions foster the design of two protein pairs with ∼80% sequence identity but different foldsLauren L Porter, Yanan He, Yihong Chen, et al.
Proceedings of the National Academy of Sciences of the United States of America|November 20, 2009
A minimal sequence code for switching protein structure and functionPatrick A Alexander, Yanan He, Yihong Chen, et al.
Proceedings of the National Academy of Sciences of the United States of America|July 5, 2007
The design and characterization of two proteins with 88% sequence identity but different structure and functionPatrick A Alexander, Yanan He, Yihong Chen, et al.
Biochemistry|September 19, 2009
Structure of a switchable subtilisin complexed with a substrate and with the activator azideTravis Gallagher, Biao Ruan, Mariya London, et al.
Biochemistry|November 17, 2004
Engineering subtilisin into a fluoride-triggered processing protease useful for one-step protein purificationBiao Ruan, Kathryn E Fisher, Patrick A Alexander, et al.
Biochemistry|May 30, 2008
Engineering substrate preference in subtilisin: structural and kinetic analysis of a specificity mutantBiao Ruan, Viktoriya London, Kathryn E Fisher, et al.
Biochemistry|January 17, 2007
Mechanism of the kinetically-controlled folding reaction of subtilisinKathryn E Fisher, Biao Ruan, Patrick A Alexander, et al.
Protein Science : a Publication of the Protein Society|December 10, 2009
De novo structure generation using chemical shifts for proteins with high-sequence identity but different foldsYang Shen, Philip N Bryan, Yanan He, et al.
Pageof 4

Showing results (11-20 of 32) with videos related to

Sort By:
Pageof 4
Biochemistry|October 26, 2005
Solution NMR structures of IgG binding domains with artificially evolved high levels of sequence identity but different foldsYanan He, Deok Cheon Yeh, Patrick Alexander, et al.
Protein Science : a Publication of the Protein Society|June 15, 2007
An artificially evolved albumin binding module facilitates chemical shift epitope mapping of GA domain interactions with phylogenetically diverse albuminsYanan He, Yihong Chen, David A Rozak, et al.
Biophysical Journal|January 8, 2015
Subdomain interactions foster the design of two protein pairs with ∼80% sequence identity but different foldsLauren L Porter, Yanan He, Yihong Chen, et al.
Proceedings of the National Academy of Sciences of the United States of America|November 20, 2009
A minimal sequence code for switching protein structure and functionPatrick A Alexander, Yanan He, Yihong Chen, et al.
Proceedings of the National Academy of Sciences of the United States of America|July 5, 2007
The design and characterization of two proteins with 88% sequence identity but different structure and functionPatrick A Alexander, Yanan He, Yihong Chen, et al.
Biochemistry|September 19, 2009
Structure of a switchable subtilisin complexed with a substrate and with the activator azideTravis Gallagher, Biao Ruan, Mariya London, et al.
Biochemistry|November 17, 2004
Engineering subtilisin into a fluoride-triggered processing protease useful for one-step protein purificationBiao Ruan, Kathryn E Fisher, Patrick A Alexander, et al.
Biochemistry|May 30, 2008
Engineering substrate preference in subtilisin: structural and kinetic analysis of a specificity mutantBiao Ruan, Viktoriya London, Kathryn E Fisher, et al.
Biochemistry|January 17, 2007
Mechanism of the kinetically-controlled folding reaction of subtilisinKathryn E Fisher, Biao Ruan, Patrick A Alexander, et al.
Protein Science : a Publication of the Protein Society|December 10, 2009
De novo structure generation using chemical shifts for proteins with high-sequence identity but different foldsYang Shen, Philip N Bryan, Yanan He, et al.
Pageof 4