The Structure of the Carboxyltransferase Component of Acetyl-CoA Carboxylase Reveals a Zinc-Binding Motif Unique to the Bacterial Enzyme<sup>,</sup>

P.W. Bilder; Sandra Lightle; Graeme Bainbridge; Jeffrey F. Ohren; B.C. Finzel; Fang Sun; Susan Holley; Loola S. Al-Kassim; Cindy Spessard; Michael Melnick; Marcia E. Newcomer; Grover L. Waldrop

doi:10.1021/bi0520479

The Structure of the Carboxyltransferase Component of Acetyl-CoA Carboxylase Reveals a Zinc-Binding Motif Unique to the Bacterial Enzyme<sup>,</sup>

P.W. Bilder(Pfizer (United States)), Sandra Lightle(Louisiana State University), Graeme Bainbridge(Louisiana State University), Jeffrey F. Ohren(Louisiana State University), B.C. Finzel(Pfizer (United States)), Fang Sun(Pfizer (United States)), Susan Holley(Pfizer (United States)), Loola S. Al-Kassim(Pfizer (United States)), Cindy Spessard(Pfizer (United States)), Michael Melnick(Vanderbilt University), Marcia E. Newcomer(Vanderbilt University), Grover L. Waldrop(Louisiana State University)

Biochemistry

January 20, 2006

10.1021/bi0520479

Cited by 87

Abstract

Acetyl-coA carboxylase (ACC) is a central metabolic enzyme that catalyzes the committed step in fatty acid biosynthesis: biotin-dependent conversion of acetyl-coA to malonyl-coA. The bacterial carboxyltransferase (CT) subunit of ACC is a target for the design of novel therapeutics that combat severe, hospital-acquired infections resistant to the established classes of frontline antimicrobials. Here, we present the structures of the bacterial CT subunits from two prevalent nosocomial pathogens, Staphylococcus aureus and Escherichia coli, at a resolution of 2.0 and 3.0 A, respectively. Both structures reveal a small, independent zinc-binding domain that lacks a complement in the primary sequence or structure of the eukaryotic homologue.

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