The Kinetic Characterization of Escherichia coli MurG Using Synthetic Substrate Analogues

Bacterial resistance to existing antibiotics poses a serious threat to human health. Because the peptidoglycan layer surrounding bacterial cells is essential for survival, the enzymes involved in peptidoglycan biosynthesis are attractive targets for the design of new antibiotics. Unfortunately, many...

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Veröffentlicht in:	Journal of the American Chemical Society 1999-09, Vol.121 (37), p.8415-8426
Hauptverfasser:	HA, Sha, CHANG, Emmanuel, LO, Mei-Chu, MEN, Hongbin, PARK, Peter, GE, Min, WALKER, Suzanne
Format:	Artikel
Sprache:	eng
Schlagworte:	Escherichia coli MurG protein peptidoglycans
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creator	HA, Sha CHANG, Emmanuel LO, Mei-Chu MEN, Hongbin PARK, Peter GE, Min WALKER, Suzanne
description	Bacterial resistance to existing antibiotics poses a serious threat to human health. Because the peptidoglycan layer surrounding bacterial cells is essential for survival, the enzymes involved in peptidoglycan biosynthesis are attractive targets for the design of new antibiotics. Unfortunately, many of these enzymes are difficult to study because substrates to monitor enzymatic activity are either not available or not soluble under suitable assay conditions. These problems can be solved by utilizing synthetic alternative substrates. We recently reported the synthesis of a soluble substrate analogue for MurG, the enzyme that forms the beta -(1,4)-N-acetylglucosaminyl-N-acetylmuramyl pentapeptide subunit of peptidoglycan. Using this substrate analogue, we have been able to develop a direct assay to monitor the activity of the enzyme. We now report the purification of Escherichia coli MurG and information on its kinetic properties and substrate requirements in the absence of membranes. This work lays the foundation for detailed mechanistic and structural investigations of this essential bacterial enzyme.
doi_str_mv	10.1021/ja991556t
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subjects	Escherichia coli MurG protein peptidoglycans
title	The Kinetic Characterization of Escherichia coli MurG Using Synthetic Substrate Analogues
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