2003
Detection and characterization of enzyme intermediates: utility of rapid chemical quench methodology and single enzyme turnover experiments
Anderson K. Detection and characterization of enzyme intermediates: utility of rapid chemical quench methodology and single enzyme turnover experiments. 2003, 19-48. DOI: 10.1093/oso/9780198524946.003.0002.Peer-Reviewed Original ResearchEnzyme active siteEnzyme intermediateProtein structure-function studiesSteady-state kinetic studiesStructure-function studiesTransient kinetic approachActive siteMolecule of substrateEnzyme catalysisQuenching methodologyEnzymeTurnover experimentsTransient kinetic techniquesStructure-based drug designEnzyme Transition StatesDrug designMechanistic informationKinetic techniquesSubstrate(sMillisecond time scaleProteinSitesPathwayKinetic studiesIntermediate
1998
Loop Closure and Intersubunit Communication in Tryptophan Synthase † , ‡
Schneider T, Gerhardt E, Lee M, Liang P, Anderson K, Schlichting I. Loop Closure and Intersubunit Communication in Tryptophan Synthase † , ‡. Biochemistry 1998, 37: 5394-5406. PMID: 9548921, DOI: 10.1021/bi9728957.Peer-Reviewed Original ResearchConceptsBeta-active siteMechanism of allosteric activationAlpha-active siteAlpha subunitTryptophan synthase alpha2beta2 complexPyridoxal phosphateCofactor pyridoxal phosphatePresence of serineSalmonella typhimuriumIntersubunit communicationTryptophan synthaseAllosteric activationAlpha2beta2 complexAllosteric propertiesAlpha-reactionBeta-reactionBeta subunitStructural basisAminoacrylate intermediateAminoacrylatePathwayBindingSitesTryptophanSerine
1993
EPSP synthase inhibitor design II. The importance of the 3-phosphate group for ligand binding at the shikimate-3-phosphate site & the identification of 3-malonate ethers as novel 3-phosphate mimics.
Miller M, Anderson K, Braccolino D, Cleary D, Gruys K, Han C, Lin K, Pansegrau P, Ream J, Sammons R, Sikorski J. EPSP synthase inhibitor design II. The importance of the 3-phosphate group for ligand binding at the shikimate-3-phosphate site & the identification of 3-malonate ethers as novel 3-phosphate mimics. Bioorganic & Medicinal Chemistry Letters 1993, 3: 1435-1440. DOI: 10.1016/s0960-894x(01)80425-x.Peer-Reviewed Original Research