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Philip A Rea

Showing results (11-20 of 23) with videos related to

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The Journal of Biological Chemistry|March 9, 2004
Phytochelatin synthase, a dipeptidyltransferase that undergoes multisite acylation with gamma-glutamylcysteine during catalysis: stoichiometric and site-directed mutagenic analysis of arabidopsis thaliana PCS1-catalyzed phytochelatin synthesisOlena K Vatamaniuk, Stéphane Mari, Albert Lang, et al.
Eukaryotic Cell|November 29, 2002
Localization, regulation, and substrate transport properties of Bpt1p, a Saccharomyces cerevisiae MRP-type ABC transporterKailash Gulshan Sharma, Deborah L Mason, Guosheng Liu, et al.
The Journal of Biological Chemistry|November 2, 2002
Isolation and characterization of TgVP1, a type I vacuolar H+-translocating pyrophosphatase from Toxoplasma gondii. The dynamics of its subcellular localization and the cellular effects of a diphosphonate inhibitorYolanda M Drozdowicz, Michael Shaw, Manami Nishi, et al.
Plant Physiology|May 23, 2006
Mutagenic definition of a papain-like catalytic triad, sufficiency of the N-terminal domain for single-site core catalytic enzyme acylation, and C-terminal domain for augmentative metal activation of a eukaryotic phytochelatin synthaseNataliya D Romanyuk, Daniel J Rigden, Olena K Vatamaniuk, et al.
Plant Physiology|November 13, 2002
Alternate energy-dependent pathways for the vacuolar uptake of glucose and glutathione conjugatesDolores M Bartholomew, Drew E Van Dyk, Sze-Mei Cindy Lau, et al.
The Journal of Biological Chemistry|January 13, 2009
Plant Vacuolar ATP-binding Cassette Transporters That Translocate Folates and Antifolates in Vitro and Contribute to Antifolate Tolerance in VivoAyan Raichaudhuri, Mingsheng Peng, Valeria Naponelli, et al.
The Journal of Biological Chemistry|May 29, 2015
Adaptive Engineering of Phytochelatin-based Heavy Metal ToleranceRebecca E Cahoon, W Kevin Lutke, Jeffrey C Cameron, et al.
The Journal of Biological Chemistry|June 18, 2005
Plant gamma-glutamyl hydrolases and folate polyglutamates: characterization, compartmentation, and co-occurrence in vacuolesGiuseppe Orsomando, Rocío Díaz de la Garza, Brian J Green, et al.
The FEBS Journal|July 27, 2007
Analysis of the vacuolar luminal proteome of Saccharomyces cerevisiaeJean-Emmanuel Sarry, Sixue Chen, Richard P Collum, et al.
Proceedings of the National Academy of Sciences of the United States of America|November 17, 2010
Arsenic tolerance in Arabidopsis is mediated by two ABCC-type phytochelatin transportersWon-Yong Song, Jiyoung Park, David G Mendoza-Cózatl, et al.
Pageof 3

Showing results (11-20 of 23) with videos related to

Sort By:
Pageof 3
The Journal of Biological Chemistry|March 9, 2004
Phytochelatin synthase, a dipeptidyltransferase that undergoes multisite acylation with gamma-glutamylcysteine during catalysis: stoichiometric and site-directed mutagenic analysis of arabidopsis thaliana PCS1-catalyzed phytochelatin synthesisOlena K Vatamaniuk, Stéphane Mari, Albert Lang, et al.
Eukaryotic Cell|November 29, 2002
Localization, regulation, and substrate transport properties of Bpt1p, a Saccharomyces cerevisiae MRP-type ABC transporterKailash Gulshan Sharma, Deborah L Mason, Guosheng Liu, et al.
The Journal of Biological Chemistry|November 2, 2002
Isolation and characterization of TgVP1, a type I vacuolar H+-translocating pyrophosphatase from Toxoplasma gondii. The dynamics of its subcellular localization and the cellular effects of a diphosphonate inhibitorYolanda M Drozdowicz, Michael Shaw, Manami Nishi, et al.
Plant Physiology|May 23, 2006
Mutagenic definition of a papain-like catalytic triad, sufficiency of the N-terminal domain for single-site core catalytic enzyme acylation, and C-terminal domain for augmentative metal activation of a eukaryotic phytochelatin synthaseNataliya D Romanyuk, Daniel J Rigden, Olena K Vatamaniuk, et al.
Plant Physiology|November 13, 2002
Alternate energy-dependent pathways for the vacuolar uptake of glucose and glutathione conjugatesDolores M Bartholomew, Drew E Van Dyk, Sze-Mei Cindy Lau, et al.
The Journal of Biological Chemistry|January 13, 2009
Plant Vacuolar ATP-binding Cassette Transporters That Translocate Folates and Antifolates in Vitro and Contribute to Antifolate Tolerance in VivoAyan Raichaudhuri, Mingsheng Peng, Valeria Naponelli, et al.
The Journal of Biological Chemistry|May 29, 2015
Adaptive Engineering of Phytochelatin-based Heavy Metal ToleranceRebecca E Cahoon, W Kevin Lutke, Jeffrey C Cameron, et al.
The Journal of Biological Chemistry|June 18, 2005
Plant gamma-glutamyl hydrolases and folate polyglutamates: characterization, compartmentation, and co-occurrence in vacuolesGiuseppe Orsomando, Rocío Díaz de la Garza, Brian J Green, et al.
The FEBS Journal|July 27, 2007
Analysis of the vacuolar luminal proteome of Saccharomyces cerevisiaeJean-Emmanuel Sarry, Sixue Chen, Richard P Collum, et al.
Proceedings of the National Academy of Sciences of the United States of America|November 17, 2010
Arsenic tolerance in Arabidopsis is mediated by two ABCC-type phytochelatin transportersWon-Yong Song, Jiyoung Park, David G Mendoza-Cózatl, et al.
Pageof 3