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Results: 1-25 | 26-27
Results: 1-25/27
Quantum/classical mechanical comparison of cation-pi interactions between tetramethylammonium and benzene
Authors: Felder, C Jiang, HL Zhu, WL Chen, KX Silman, I Botti, SA Sussman, JL
Citation: C. Felder et al., Quantum/classical mechanical comparison of cation-pi interactions between tetramethylammonium and benzene, J PHYS CH A, 105(8), 2001, pp. 1326-1333
Theoretical insight into the interactions of TMA-benzene and TMA-pyrrole with B3LYP density-functional theory (DFT) and ab initio second order Moller-Plesset perturbation theory (MP2) calculations
Authors: Liu, T Gu, JD Tan, XJ Zhu, WL Luo, XM Jiang, HL Ji, RY Chen, KX Silman, I Sussman, JL
Citation: T. Liu et al., Theoretical insight into the interactions of TMA-benzene and TMA-pyrrole with B3LYP density-functional theory (DFT) and ab initio second order Moller-Plesset perturbation theory (MP2) calculations, J PHYS CH A, 105(22), 2001, pp. 5431-5437
Specific protein dynamics near the solvent glass transition assayed by radiation-induced structural changes
Authors: Weik, M Ravelli, RBG Silman, I Sussman, JL Gros, P Kroon, J
Citation: M. Weik et al., Specific protein dynamics near the solvent glass transition assayed by radiation-induced structural changes, PROTEIN SCI, 10(10), 2001, pp. 1953-1961
Histochemical method for characterization of enzyme crystals: application to crystals of Torpedo californica acetylcholinesterase
Authors: Nicolas, A Ferron, F Toker, L Sussman, JL Silman, I
Citation: A. Nicolas et al., Histochemical method for characterization of enzyme crystals: application to crystals of Torpedo californica acetylcholinesterase, ACT CRYST D, 57, 2001, pp. 1348-1350
Solvent behaviour in flash-cooled protein crystals at cryogenic temperatures
Authors: Weik, M Kryger, G Schreurs, AMM Bouma, B Silman, I Sussman, JL Gros, P Kroon, J
Citation: M. Weik et al., Solvent behaviour in flash-cooled protein crystals at cryogenic temperatures, ACT CRYST D, 57, 2001, pp. 566-573
Presynaptic M-2 muscarinic receptors are involved in controlling the kinetics of ACh release at the frog neuromuscular junction
Authors: Slutsky, I Silman, I Parnas, I Parnas, H
Citation: I. Slutsky et al., Presynaptic M-2 muscarinic receptors are involved in controlling the kinetics of ACh release at the frog neuromuscular junction, J PHYSL LON, 536(3), 2001, pp. 717-725
A structure-based design approach to the development of novel, reversible AChE inhibitors
Authors: Doucet-Personeni, C Bentley, PD Fletcher, RJ Kinkaid, A Kryger, G Pirard, B Taylor, A Taylor, R Taylor, J Viner, R Silman, I Sussman, JL Greenblatt, HM Lewis, T
Citation: C. Doucet-personeni et al., A structure-based design approach to the development of novel, reversible AChE inhibitors, J MED CHEM, 44(20), 2001, pp. 3203-3215
Noncovalent interaction or chemical bonding between alkaline earth cationsand benzene? A quantum chemistry study using MP2 and density-functional theory methods
Authors: Tan, XJ Zhu, WL Cui, M Luo, XM Gu, JD Silman, I Sussman, JL Jiang, HL Ji, RY Chen, KX
Citation: Xj. Tan et al., Noncovalent interaction or chemical bonding between alkaline earth cationsand benzene? A quantum chemistry study using MP2 and density-functional theory methods, CHEM P LETT, 349(1-2), 2001, pp. 113-122
A structural motif of acetylcholinesterase that promotes amyloid beta-peptide fibril formation
Authors: De Ferrari, GV Canales, MA Shin, I Weiner, LM Silman, I Inestrosa, NC
Citation: Gv. De Ferrari et al., A structural motif of acetylcholinesterase that promotes amyloid beta-peptide fibril formation, BIOCHEM, 40(35), 2001, pp. 10447-10457
How does ammonium interact with aromatic groups? A density functional theory (DFT/B3LYP) investigation
Authors: Zhu, WL Tan, XJ Puah, CM Gu, JD Jiang, HL Chen, KX Felder, CE Silman, I Sussman, JL
Citation: Wl. Zhu et al., How does ammonium interact with aromatic groups? A density functional theory (DFT/B3LYP) investigation, J PHYS CH A, 104(42), 2000, pp. 9573-9580
Three-dimensional structures of Drosophila melanogaster acetylcholinesterase and of its complexes with two potent inhibitors
Authors: Harel, M Kryger, G Rosenberry, TL Mallender, WD Lewis, T Fletcher, RJ Guss, JM Silman, I Sussman, JL
Citation: M. Harel et al., Three-dimensional structures of Drosophila melanogaster acetylcholinesterase and of its complexes with two potent inhibitors, PROTEIN SCI, 9(6), 2000, pp. 1063-1072
Structures of recombinant native and E202Q mutant human acetylcholinesterase complexed with the snake-venom toxin fasciculin-II
Authors: Kryger, G Harel, M Giles, K Toker, L Velan, B Lazar, A Kronman, C Barak, D Ariel, N Shafferman, A Silman, I Sussman, JL
Citation: G. Kryger et al., Structures of recombinant native and E202Q mutant human acetylcholinesterase complexed with the snake-venom toxin fasciculin-II, ACT CRYST D, 56, 2000, pp. 1385-1394
Structural studies on vertebrate and invertebrate acetylcholinesterases and their complexes with functional ligands
Authors: Greenblatt, HM Silman, I Sussman, JL
Citation: Hm. Greenblatt et al., Structural studies on vertebrate and invertebrate acetylcholinesterases and their complexes with functional ligands, DRUG DEV R, 50(3-4), 2000, pp. 573-583
Specific chemical and structural damage to proteins produced by synchrotron radiation
Authors: Weik, M Ravelli, RBG Kryger, G McSweeney, S Raves, ML Harel, M Gros, P Silman, I Kroon, J Sussman, JL
Citation: M. Weik et al., Specific chemical and structural damage to proteins produced by synchrotron radiation, P NAS US, 97(2), 2000, pp. 623-628
Inactivation studies of acetylcholinesterase with phenylmethylsulfonyl fluoride
Authors: Kraut, D Goff, H Pai, RK Hosea, NA Silman, I Sussman, JL Taylor, P Voet, JG
Citation: D. Kraut et al., Inactivation studies of acetylcholinesterase with phenylmethylsulfonyl fluoride, MOLEC PHARM, 57(6), 2000, pp. 1243-1248
Active-site gorge and buried water molecules in crystal structures of acetylcholinesterase from Torpedo californica
Authors: Koellner, G Kryger, G Millard, CB Silman, I Sussman, JL Steiner, T
Citation: G. Koellner et al., Active-site gorge and buried water molecules in crystal structures of acetylcholinesterase from Torpedo californica, J MOL BIOL, 296(2), 2000, pp. 713-735
Structure of acetylcholinesterase complexed with E2020 (Aricept (R)): implications for the design of new anti-Alzheimer drugs
Authors: Kryger, G Silman, I Sussman, JL
Citation: G. Kryger et al., Structure of acetylcholinesterase complexed with E2020 (Aricept (R)): implications for the design of new anti-Alzheimer drugs, STRUCT F D, 7(3), 1999, pp. 297-307
Acetylcholinesterase of Schistosoma mansoni - Functional correlates - Contributed in honor of Professor Hans Neurath's 90th birthday
Authors: Arnon, R Silman, I Tarrab-Hazdai, R
Citation: R. Arnon et al., Acetylcholinesterase of Schistosoma mansoni - Functional correlates - Contributed in honor of Professor Hans Neurath's 90th birthday, PROTEIN SCI, 8(12), 1999, pp. 2553-2561
Acetylcholinesterase from Schistosoma mansoni: interaction of globular species with heparin
Authors: Tarrab-Hazdai, R Toker, L Silman, I Arnon, R
Citation: R. Tarrab-hazdai et al., Acetylcholinesterase from Schistosoma mansoni: interaction of globular species with heparin, BIOCHEM J, 344, 1999, pp. 945-951
Effect of mutations within the peripheral anionic site on the stability ofacetylcholinesterase
Authors: Morel, N Bon, S Greenblatt, HM Van Belle, D Wodak, SJ Sussman, JL Massoulie, J Silman, I
Citation: N. Morel et al., Effect of mutations within the peripheral anionic site on the stability ofacetylcholinesterase, MOLEC PHARM, 55(6), 1999, pp. 982-992
Structure of acetylcholinesterase complexed with (-)-galanthamine at 2.3 angstrom resolution
Authors: Greenblatt, HM Kryger, G Lewis, T Silman, I Sussman, JL
Citation: Hm. Greenblatt et al., Structure of acetylcholinesterase complexed with (-)-galanthamine at 2.3 angstrom resolution, FEBS LETTER, 463(3), 1999, pp. 321-326
A preliminary comparison of structural models for catalytic intermediates of acetylcholinesterase
Authors: Silman, I Millard, CB Ordentlich, A Greenblatt, HM Harel, M Barak, D Shafferman, A Sussman, JL
Citation: I. Silman et al., A preliminary comparison of structural models for catalytic intermediates of acetylcholinesterase, CHEM-BIO IN, 120, 1999, pp. 43-52
A modular treatment of molecular traffic through the active site of cholinesterase
Authors: Botti, SA Felder, CE Lifson, S Sussman, JL Silman, I
Citation: Sa. Botti et al., A modular treatment of molecular traffic through the active site of cholinesterase, BIOPHYS J, 77(5), 1999, pp. 2430-2450
Targeted cross-linking of a molten globule form of acetylcholinesterase bythe virucidal agent hypericin
Authors: Weiner, L Roth, E Mazur, Y Silman, I
Citation: L. Weiner et al., Targeted cross-linking of a molten globule form of acetylcholinesterase bythe virucidal agent hypericin, BIOCHEM, 38(35), 1999, pp. 11401-11405
Crystal structures of aged phosphonylated acetylcholinesterase: Nerve agent reaction products at the atomic level
Authors: Millard, CB Kryger, G Ordentlich, A Greenblatt, HM Harel, M Raves, ML Segall, Y Barak, D Shafferman, A Silman, I Sussman, JL
Citation: Cb. Millard et al., Crystal structures of aged phosphonylated acetylcholinesterase: Nerve agent reaction products at the atomic level, BIOCHEM, 38(22), 1999, pp. 7032-7039
Risultati: 1-25 | 26-27