Jan F. Chlebowski | Researchain

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Journal of Magnetic Resonance | 1978

113Cd NMR as a probe of the active sites of metalloenzymes

Ian M. Armitage; Antonius J.M. Schoot Uiterkamp; Jan F. Chlebowski; Joseph E. Coleman

113Cd NMR has been used to study the active site metal ion(s) of the 113Cd(II) derivatives of four Zn(II) metalloenzymes, carboxypeptidase A, carbonic anhydrases, alkaline phosphatase, and superoxide dismutase. The resonances of the enzyme-bound 113Cd(II) ions are extremely sensitive to ligand exchange, including solvent and inhibitor, and to changes in the metal ion coordination sphere. The nature of this behavior can be shown to parallel the known structural properties and proposed roles of the metal ion in the catalytic mechanisms. Models accounting for the exchange mechanisms which may be modulating the chemical shift, linewidth, and coupling are discussed.

Journal of the American Chemical Society | 1976

Cadmium-113 Fourier Transform Nuclear Magnetic Resonance of Cadmium(II) Carbonic Anhydrases and Cadmium(II) Alkaline Phosphatase

Ian M. Armitage; Raymond T. Pajer; A.J.M. Schoot Uiterkamp; Jan F. Chlebowski; Joseph E. Coleman

Journal of Biological Chemistry | 1976

31P NMR of Phosphate and Phosphonate Complexes of Metalloalkaline Phosphatases

Jan F. Chlebowski; Ian M. Armitage; P P Tusa; Joseph E. Coleman

Journal of Biological Chemistry | 1977

Allosteric interactions between metal ion and phosphate at the active sites of alkaline phosphatase as determined by 31P NMR and 113Cd NMR.

Jan F. Chlebowski; Ian M. Armitage; Joseph E. Coleman

Journal of Biological Chemistry | 1974

Mechanisms of Hydrolysis of O-Phosphorothioates and Inorganic Thiophosphate by Escherichia coli Alkaline Phosphatase

Jan F. Chlebowski; Joseph E. Coleman

Journal of Biological Chemistry | 1979

31P NMR of alkaline phosphatase. Dependence of phosphate binding stoichiometry on metal ion content.

Otvos Jd; Ian M. Armitage; Jan F. Chlebowski; Joseph E. Coleman

Journal of Biological Chemistry | 1972

Presteady state kinetics of phosphorothioate hydrolysis by alkaline phosphatase. Rate-limiting dephosphorylation at alkaline pH.

Jan F. Chlebowski; Joseph E. Coleman

Journal of the American Chemical Society | 1969

Reaction of phenyllithium and the halotoluenes. Competing aryne, displacement, and halogen-metal exchange processes

Lester. Friedman; Jan F. Chlebowski

Biological Applications of Magnetic Resonance | 1979

MULTINUCLEAR NMR APPROACHES TO THE SOLUTION STRUCTURE OF ALKALINE PHOSPHATASE: 13C, 19F, 31P, AND 113Cd NMR*

Joseph E. Coleman; Ian M. Armitage; Jan F. Chlebowski; James D. Otvos; Antonius J.M. Schoot Uiterkamp

Archive | 2012

DEPENDENCE OF PHOSPHATE BINDING STOICHIOMETRY ON METAL ION CONTENT

James D. Otvos; Ian M. Armitage; Jan F. Chlebowski; Joseph E. Coleman

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Joseph E. Coleman

Yale University

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Ian M. Armitage

University of Minnesota

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Antonius J.M. Schoot Uiterkamp

Yale University

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James D. Otvos

University of Wisconsin–Milwaukee

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A.J.M. Schoot Uiterkamp

Yale University

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Lester. Friedman

New York University

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P P Tusa

Yale University

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Raymond T. Pajer

Yale University

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