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Results: 1-25/26
Authors:
Gerratana, B
Cleland, WW
Reinhardt, LA
Citation: B. Gerratana et al., Regiospecificity assignment for the reaction of kanamycin nucleotidyltransferase from Staphylococcus aureus, BIOCHEM, 40(9), 2001, pp. 2964-2971
Authors:
Gerratana, B
Frey, PA
Cleland, WW
Citation: B. Gerratana et al., Characterization of the transition-state structure of the reaction of kanamycin nucleotidyltransferase by heavy-atom kinetic isotope effects, BIOCHEM, 40(9), 2001, pp. 2972-2977
Authors:
Neidhart, D
Wei, YM
Cassidy, C
Lin, J
Cleland, WW
Frey, PA
Citation: D. Neidhart et al., Correlation of low-barrier hydrogen bonding and oxyanion binding in transition state analogue complexes of chymotrypsin, BIOCHEM, 40(8), 2001, pp. 2439-2447
Authors:
Gerratana, B
Cleland, WW
Frey, PA
Citation: B. Gerratana et al., Mechanistic roles of Thr134, Tyr160, and Lys 164 in the reaction catalyzedby dTDP-glucose 4,6-dehydratase, BIOCHEM, 40(31), 2001, pp. 9187-9195
Authors:
Poyner, RR
Cleland, WW
Reed, GH
Citation: Rr. Poyner et al., Role of metal ions in catalysis by enolase: An ordered kinetic mechanism for a single substrate enzyme, BIOCHEM, 40(27), 2001, pp. 8009-8017
Authors:
Rishavy, MA
Yang, ZR
Tong, L
Cleland, WW
Citation: Ma. Rishavy et al., Determination of the mechanism of human malic enzyme with natural and alternate dinucleotides by isotope effects, ARCH BIOCH, 396(1), 2001, pp. 43-48
Authors:
Anderson, MA
Shim, H
Raushel, FM
Cleland, WW
Citation: Ma. Anderson et al., Hydrolysis of phosphotriesters: Determination of transition states in parallel reactions by heavy-atom isotope effects, J AM CHEM S, 123(38), 2001, pp. 9246-9253
Authors:
Rishavy, MA
Hengge, AC
Cleland, WW
Citation: Ma. Rishavy et al., Lanthanide catalyzed cyclization of uridine 3 '-p-nitrophenyl phosphate, BIOORG CHEM, 28(5), 2000, pp. 283-292
Authors:
Hengge, AC
Bruzik, KS
Tobin, AE
Cleland, WW
Tsai, MD
Citation: Ac. Hengge et al., Kinetic isotope effects and stereochemical studies on a ribonuclease model: Hydrolysis reactions of uridine 3 '-nitrophenyl phosphate, BIOORG CHEM, 28(3), 2000, pp. 119-133
Authors:
Rishavy, MA
Cleland, WW
Citation: Ma. Rishavy et Ww. Cleland, C-13 and N-15 kinetic isotope effects on the reaction of aspartate aminotransferase and the tyrosine-225 to phenylalanine mutant, BIOCHEM, 39(25), 2000, pp. 7546-7551
Authors:
Rishavy, MA
Cleland, WW
Lusty, CJ
Citation: Ma. Rishavy et al., N-15 isotope effects in glutamine hydrolysis catalyzed by carbamyl phosphate synthetase: Evidence for a tetrahedral intermediate in the mechanism, BIOCHEM, 39(24), 2000, pp. 7309-7315
Authors:
Rishavy, MA
Cleland, WW
Citation: Ma. Rishavy et Ww. Cleland, Determination of the mechanism of orotidine 5 '-monophosphate decarboxylase by isotope effects, BIOCHEM, 39(16), 2000, pp. 4569-4574
Authors:
Lee, LV
Vu, MV
Cleland, WW
Citation: Lv. Lee et al., C-13 and deuterium isotope effects suggest an aldol cleavage mechanism forL-ribulose-5-phosphate 4-epimerase, BIOCHEM, 39(16), 2000, pp. 4808-4820
Authors:
Lee, LV
Poyner, RR
Vu, MV
Cleland, WW
Citation: Lv. Lee et al., Role of metal ions in the reaction catalyzed by L-ribulose-5-phosphate 4-epimerase, BIOCHEM, 39(16), 2000, pp. 4821-4830
Authors:
Cleland, WW
Citation: Ww. Cleland, Low-barrier hydrogen bonds and enzymatic catalysis, ARCH BIOCH, 382(1), 2000, pp. 1-5
Authors:
Gerratana, B
Sowa, GA
Cleland, WW
Citation: B. Gerratana et al., Characterization of the transition-state structures and mechanisms for theisomerization and cleavage reactions of uridine 3 '-m-nitrobenzyl phosphate, J AM CHEM S, 122(51), 2000, pp. 12615-12621
Authors:
Kurtz, KA
Rishavy, MA
Cleland, WW
Fitzpatrick, PF
Citation: Ka. Kurtz et al., Nitrogen isotope effects as probes of the mechanism of D-amino acid oxidase, J AM CHEM S, 122(51), 2000, pp. 12896-12897
Authors:
Cassidy, CS
Reinhardt, LA
Cleland, WW
Frey, PA
Citation: Cs. Cassidy et al., Hydrogen bonding in complexes of carboxylic acids with 1-alkylimidazoles: steric and isotopic effects on low barrier hydrogen bonding, J CHEM S P2, (3), 1999, pp. 635-641
Authors:
Cleland, WW
Northrop, DB
Citation: Ww. Cleland et Db. Northrop, Energetics of substrate binding, catalysis, and product release, METH ENZYM, 308, 1999, pp. 3-27
Authors:
Rishavy, MA
Cleland, WW
Citation: Ma. Rishavy et Ww. Cleland, C-13, N-15, and O-18 equilibrium isotope effects and fractionation factors, CAN J CHEM, 77(5-6), 1999, pp. 967-977
Authors:
Gustin, DJ
Mattei, P
Kast, P
Wiest, O
Lee, L
Cleland, WW
Hilvert, D
Citation: Dj. Gustin et al., Heavy atom isotope effects reveal a highly polarized transition state for chorismate mutase, J AM CHEM S, 121(8), 1999, pp. 1756-1757
Authors:
Frey, PA
Cleland, WW
Citation: Pa. Frey et Ww. Cleland, Are there strong hydrogen bonds in aqueous solutions?, BIOORG CHEM, 26(4), 1998, pp. 175-192
Authors:
Lin, J
Westler, WM
Cleland, WW
Markley, JL
Frey, PA
Citation: J. Lin et al., Fractionation factors and activation energies for exchange of the low barrier hydrogen bonding proton in peptidyl trifluoromethyl ketone complexes ofchymotrypsin, P NAS US, 95(25), 1998, pp. 14664-14668
Authors:
Urbauer, JL
Bradshaw, DE
Cleland, WW
Citation: Jl. Urbauer et al., Synthesis of (2R,3R)-erythro- and (2R,3S)-threo-fluoromalate using malic dehydrogenase; Stereoselectivity of malic dehydrogenase, BIOCHEM, 37(51), 1998, pp. 18018-18025
Authors:
Urbauer, JL
Bradshaw, DE
Cleland, WW
Citation: Jl. Urbauer et al., Determination of the kinetic and chemical mechanism of malic enzyme using (2R,3R)-erythro-fluoromalate as a slow alternate substrate, BIOCHEM, 37(51), 1998, pp. 18026-18031