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Israel Silman

Showing results (41-50 of 108) with videos related to

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Chemico-Biological Interactions|May 11, 2016
In vitro evaluation of the catalytic activity of paraoxonases and phosphotriesterases predicts the enzyme circulatory levels required for in vivo protection against organophosphate intoxicationsYacov Ashani, Haim Leader, Nidhi Aggarwal, et al.
Proteins|September 20, 2007
Operational definition of intrinsically unstructured protein sequences based on susceptibility to the 20S proteasomePeter Tsvetkov, Gad Asher, Aviv Paz, et al.
Protein Science : a Publication of the Protein Society|November 16, 2024
Why is binding of a divalent metal cation to a structural motif containing four carboxylate residues not accompanied by a conformational change?Sofya Lushchekina, Lev Weiner, Yacov Ashani, et al.
Genome Biology|November 16, 2007
An idea whose time has comeLucia Banci, Wolfgang Baumeister, Udo Heinemann, et al.
Proceedings of the National Academy of Sciences of the United States of America|August 15, 2008
Shoot-and-Trap: use of specific x-ray damage to study structural protein dynamics by temperature-controlled cryo-crystallographyJacques-Philippe Colletier, Dominique Bourgeois, Benoît Sanson, et al.
Protein Science : a Publication of the Protein Society|March 9, 2021
Torpedo californica acetylcholinesterase is stabilized by binding of a divalent metal ion to a novel and versatile 4D motifIsrael Silman, Valery L Shnyrov, Yacov Ashani, et al.
Protein Science : a Publication of the Protein Society|September 23, 2003
Stabilization of a metastable state of Torpedo californica acetylcholinesterase by chemical chaperonesCharles B Millard, Valery L Shnyrov, Simon Newstead, et al.
Biophysical Journal|May 27, 2008
Flexibility of aromatic residues in the active-site gorge of acetylcholinesterase: X-ray versus molecular dynamicsYechun Xu, Jacques-Philippe Colletier, Martin Weik, et al.
Chemico-Biological Interactions|February 23, 2020
Polyproline-rich peptides associated with Torpedo californica acetylcholinesterase tetramersLilly Toker, Israel Silman, Tzviya Zeev-Ben-Mordehai, et al.
Human Mutation|October 2, 2004
A paradigm for single nucleotide polymorphism analysis: the case of the acetylcholinesterase geneYehudit Hasin, Nili Avidan, Dani Bercovich, et al.
Pageof 11

Showing results (41-50 of 108) with videos related to

Sort By:
Pageof 11
Chemico-Biological Interactions|May 11, 2016
In vitro evaluation of the catalytic activity of paraoxonases and phosphotriesterases predicts the enzyme circulatory levels required for in vivo protection against organophosphate intoxicationsYacov Ashani, Haim Leader, Nidhi Aggarwal, et al.
Proteins|September 20, 2007
Operational definition of intrinsically unstructured protein sequences based on susceptibility to the 20S proteasomePeter Tsvetkov, Gad Asher, Aviv Paz, et al.
Protein Science : a Publication of the Protein Society|November 16, 2024
Why is binding of a divalent metal cation to a structural motif containing four carboxylate residues not accompanied by a conformational change?Sofya Lushchekina, Lev Weiner, Yacov Ashani, et al.
Genome Biology|November 16, 2007
An idea whose time has comeLucia Banci, Wolfgang Baumeister, Udo Heinemann, et al.
Proceedings of the National Academy of Sciences of the United States of America|August 15, 2008
Shoot-and-Trap: use of specific x-ray damage to study structural protein dynamics by temperature-controlled cryo-crystallographyJacques-Philippe Colletier, Dominique Bourgeois, Benoît Sanson, et al.
Protein Science : a Publication of the Protein Society|March 9, 2021
Torpedo californica acetylcholinesterase is stabilized by binding of a divalent metal ion to a novel and versatile 4D motifIsrael Silman, Valery L Shnyrov, Yacov Ashani, et al.
Protein Science : a Publication of the Protein Society|September 23, 2003
Stabilization of a metastable state of Torpedo californica acetylcholinesterase by chemical chaperonesCharles B Millard, Valery L Shnyrov, Simon Newstead, et al.
Biophysical Journal|May 27, 2008
Flexibility of aromatic residues in the active-site gorge of acetylcholinesterase: X-ray versus molecular dynamicsYechun Xu, Jacques-Philippe Colletier, Martin Weik, et al.
Chemico-Biological Interactions|February 23, 2020
Polyproline-rich peptides associated with Torpedo californica acetylcholinesterase tetramersLilly Toker, Israel Silman, Tzviya Zeev-Ben-Mordehai, et al.
Human Mutation|October 2, 2004
A paradigm for single nucleotide polymorphism analysis: the case of the acetylcholinesterase geneYehudit Hasin, Nili Avidan, Dani Bercovich, et al.
Pageof 11