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Diana S. Hamilton

University of Maryland, Baltimore County

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Publication

Featured researches published by Diana S. Hamilton.

Biochimica et Biophysica Acta | 1992

Caution : the glycylmethyl and glycylethyl esters of glutathione are substrates for glyoxalase I

Diana S. Hamilton; Donald J. Creighton

The glycylmethyl and glycylethyl esters of glutathione have been synthesized and carefully characterized by both 1H-NMR and tandem FAB mass spectrometry. Contrary to previously published studies, these compounds (as their methylglyoxal-thiohemiacetals) do indeed serve as moderately efficient substrates for yeast glyoxalase I, with kcat values that are approx. 3-fold smaller and Km values that are approx. 3-fold larger than those of the thiohemiacetal formed from glutathione. Product inhibition studies show that the glycylmethyl and glycylethyl esters of (S)-D-lactoylglutathione bind approx. 1.4-fold less tightly to the active site than (S)-D-lactoylglutathione. These observations exclude an essential role for the glycyl-CO2- of substrate in active site binding and catalysis.

Biochemical Society Transactions | 2003

Glyoxalase I inhibitors in cancer chemotherapy

Donald J. Creighton; Zhe-Bin Zheng; R. Holewinski; Diana S. Hamilton; Julie L. Eiseman

Archives of Biochemistry and Biophysics | 2001

Brief history of glyoxalase I and what we have learned about metal ion-dependent, enzyme-catalyzed isomerizations.

Donald J. Creighton; Diana S. Hamilton

Journal of Medicinal Chemistry | 1994

S-(N-aryl-N-hydroxycarbamoyl)glutathione derivatives are tight-binding inhibitors of glyoxalase I and slow substrates for glyoxalase II.

Nunna S.R.K. Murthy; Tina Bakeris; Malcolm J. Kavarana; Diana S. Hamilton; Yin Lan; Donald J. Creighton

Journal of the American Chemical Society | 2003

Mechanism of the Glutathione Transferase-Catalyzed Conversion of Antitumor 2-Crotonyloxymethyl-2-cycloalkenones to GSH Adducts

Diana S. Hamilton; Xiyun Zhang; Zhebo Ding; Ina Hubatsch; Bengt Mannervik; K. N. Houk; Bruce Ganem; Donald J. Creighton

Organic Letters | 2000

Reaction of COTC with glutathione: structure of the putative glyoxalase I inhibitor.

Huntley Cf; Diana S. Hamilton; Donald J. Creighton; Bruce Ganem

Journal of Medicinal Chemistry | 2000

Role of hydrophobic interactions in binding S-(N-aryl/alkyl-N-hydroxycarbamoyl)glutathiones to the active site of the antitumor target enzyme glyoxalase I.

Avinash Kalsi; Malcolm J. Kavarana; Tianfen Lu; Dale L. Whalen; Diana S. Hamilton; Donald J. Creighton

Organic Letters | 2002

Glutathionyl Transferase Catalyzed Addition of Glutathione to COMC: A New Hypothesis for Antitumor Activity

Diana S. Hamilton; Zhebo Ding; Bruce Ganem; Donald J. Creighton

Journal of Medicinal Chemistry | 1999

A new method for rapidly generating inhibitors of glyoxalase I inside tumor cells using S-(N-aryl-N-hydroxycarbamoyl)ethylsulfoxides.

Diana S. Hamilton; Malcolm J. Kavarana; Ellyn M. Sharkey; Julie L. Eiseman; Donald J. Creighton

Journal of Medicinal Chemistry | 2003

Molecular basis of the antitumor activities of 2-crotonyloxymethyl-2-cycloalkenones.

Erin Joseph; Julie L. Eiseman; Diana S. Hamilton; Haibo Wang; Heekyung Tak; Zhebo Ding; Bruce Ganem; Donald J. Creighton

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Donald J. Creighton

University of California

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Bruce Ganem

Cornell University

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Malcolm J. Kavarana

University of Arizona

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Julie L. Eiseman

University of Pittsburgh

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Zhebo Ding

Cornell University

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Ellyn M. Sharkey

University of Maryland

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Erin Joseph

University of Pittsburgh

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Haibo Wang

University of Maryland

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K. N. Houk

University of California

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Nunna S.R.K. Murthy

University of Maryland

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