| 论文题目: | Structure, function and selective inhibition of bacterial acetyl-coa carboxylase |
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| 作者: | Polyak, SW; Abell, AD; Wilce, MCJ; Zhang, L; Booker, GW |
| 联系作者: | Polyak, SW |
| 刊物名称: | APPLIED MICROBIOLOGY AND BIOTECHNOLOGY |
| 期: | 3 |
| 卷: | 93 |
| 页: | 983-992 |
| 年份: | 2012 |
| 影响因子: | 3.425 |
| 论文下载: | 下载地址 |
| 摘要: | Acetyl-CoA carboxylase (ACC) catalyses the first committed step in fatty acid biosynthesis: a metabolic pathway required for several important biological processes including the synthesis and maintenance of cellular membranes. ACC employs a covalently attached biotin moiety to bind a carboxyl anion and then transfer it to acetyl-CoA, yielding malonyl-CoA. These activities occur at two different subsites: the biotin carboxylase (BC) and carboxyltransferase (CT). Structural biology, together with small molecule inhibitor studies, has provided new insights into the molecular mechanisms that govern ACC catalysis, specifically the BC and CT subunits. Here, we review these recent findings and highlight key differences between the bacterial and eukaryotic isozymes with a view to establish those features that provide an opportunity for selective inhibition. Especially important are examples of highly selective small molecule inhibitors capable of differentiating between ACCs from different phyla. The implications for early stage antibiotic discovery projects, stemming from these studies, are discussed. |
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