Citation: Jj. Schmidt et al., High-throughput assays for botulinum neurotoxin proteolytic activity: Serotypes A, B, D, and F, ANALYT BIOC, 296(1), 2001, pp. 130-137
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
Authors:
Ray, P
Ishida, H
Millard, CB
Petrali, JP
Ray, R
Citation: P. Ray et al., Phospholipase A(2) and arachidonic acid-mediated mechanism of neuroexocytosis: A possible target of botulinum neurotoxin a other than SNAP-25, J APPL TOX, 19, 1999, pp. S27-S28
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
Citation: Ca. Broomfield et al., Protein engineering of a human enzyme that hydrolyzes V and G nerve agents: design, construction and characterization, CHEM-BIO IN, 120, 1999, pp. 413-418
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
Authors:
Millard, CB
Koellner, G
Ordentlich, A
Shafferman, A
Silman, I
Sussman, JL
Citation: Cb. Millard et al., Reaction products of acetylcholinesterase and VX reveal a mobile histidinein the catalytic triad, J AM CHEM S, 121(42), 1999, pp. 9883-9884
Citation: Hl. Meier et Cb. Millard, Effects of poly (ADP-ribose) polymerase inhibitors on the sulfur mustard-induced disruption of the higher-order nuclear structure of human lymphocytes, TOXICITY ASSESSMENT ALTERNATIVES, 1999, pp. 213-222