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A. Ordentlich

Showing results (11-20 of 30) with videos related to

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FEBS Letters|October 14, 1996
Structural modifications of the omega loop in human acetylcholinesteraseB Velan, D Barak, N Ariel, et al.
The Journal of Biological Chemistry|May 17, 1996
The architecture of human acetylcholinesterase active center probed by interactions with selected organophosphate inhibitorsA Ordentlich, D Barak, C Kronman, et al.
Biochemistry|June 20, 2001
Does "butyrylization" of acetylcholinesterase through substitution of the six divergent aromatic amino acids in the active center gorge generate an enzyme mimic of butyrylcholinesterase?D Kaplan, A Ordentlich, D Barak, et al.
The Biochemical Journal|December 15, 1993
N-glycosylation of human acetylcholinesterase: effects on activity, stability and biosynthesisB Velan, C Kronman, A Ordentlich, et al.
The Journal of Biological Chemistry|February 3, 1995
Contribution of aromatic moieties of tyrosine 133 and of the anionic subsite tryptophan 86 to catalytic efficiency and allosteric modulation of acetylcholinesteraseA Ordentlich, D Barak, C Kronman, et al.
The Journal of Biological Chemistry|July 25, 1998
Functional characteristics of the oxyanion hole in human acetylcholinesteraseA Ordentlich, D Barak, C Kronman, et al.
Chemical Research in Toxicology|July 17, 2001
Resolving pathways of interaction of covalent inhibitors with the active site of acetylcholinesterases: MALDI-TOF/MS analysis of various nerve agent phosphyl adductsE Elhanany, A Ordentlich, O Dgany, et al.
FEBS Letters|November 15, 1993
Engineering resistance to 'aging' of phosphylated human acetylcholinesterase. Role of hydrogen bond network in the active centerA Ordentlich, C Kronman, D Barak, et al.
The Biochemical Journal|December 8, 1998
Modulation of circulatory residence of recombinant acetylcholinesterase through biochemical or genetic manipulation of sialylation levelsT Chitlaru, C Kronman, M Zeevi, et al.
Biochemistry|February 2, 2000
Evidence for P-N bond scission in phosphoroamidate nerve agent adducts of human acetylcholinesteraseD Barak, A Ordentlich, D Kaplan, et al.
Pageof 3

Showing results (11-20 of 30) with videos related to

Sort By:
Pageof 3
FEBS Letters|October 14, 1996
Structural modifications of the omega loop in human acetylcholinesteraseB Velan, D Barak, N Ariel, et al.
The Journal of Biological Chemistry|May 17, 1996
The architecture of human acetylcholinesterase active center probed by interactions with selected organophosphate inhibitorsA Ordentlich, D Barak, C Kronman, et al.
Biochemistry|June 20, 2001
Does "butyrylization" of acetylcholinesterase through substitution of the six divergent aromatic amino acids in the active center gorge generate an enzyme mimic of butyrylcholinesterase?D Kaplan, A Ordentlich, D Barak, et al.
The Biochemical Journal|December 15, 1993
N-glycosylation of human acetylcholinesterase: effects on activity, stability and biosynthesisB Velan, C Kronman, A Ordentlich, et al.
The Journal of Biological Chemistry|February 3, 1995
Contribution of aromatic moieties of tyrosine 133 and of the anionic subsite tryptophan 86 to catalytic efficiency and allosteric modulation of acetylcholinesteraseA Ordentlich, D Barak, C Kronman, et al.
The Journal of Biological Chemistry|July 25, 1998
Functional characteristics of the oxyanion hole in human acetylcholinesteraseA Ordentlich, D Barak, C Kronman, et al.
Chemical Research in Toxicology|July 17, 2001
Resolving pathways of interaction of covalent inhibitors with the active site of acetylcholinesterases: MALDI-TOF/MS analysis of various nerve agent phosphyl adductsE Elhanany, A Ordentlich, O Dgany, et al.
FEBS Letters|November 15, 1993
Engineering resistance to 'aging' of phosphylated human acetylcholinesterase. Role of hydrogen bond network in the active centerA Ordentlich, C Kronman, D Barak, et al.
The Biochemical Journal|December 8, 1998
Modulation of circulatory residence of recombinant acetylcholinesterase through biochemical or genetic manipulation of sialylation levelsT Chitlaru, C Kronman, M Zeevi, et al.
Biochemistry|February 2, 2000
Evidence for P-N bond scission in phosphoroamidate nerve agent adducts of human acetylcholinesteraseD Barak, A Ordentlich, D Kaplan, et al.
Pageof 3