碳青霉烯合酶对差向异构化和去饱和的异常双功能催化作用。

The unusual bifunctional catalysis of epimerization and desaturation by carbapenem synthase.

作者信息

Topf Maya, Sandala Gregory M, Smith David M, Schofield Christopher J, Easton Christopher J, Radom Leo

机构信息

School of Chemistry, University of Sydney, Sydney, NSW 2006, Australia.

出版信息

J Am Chem Soc. 2004 Aug 18;126(32):9932-3. doi: 10.1021/ja047899v.

DOI:10.1021/ja047899v

PMID:15303862

Abstract

High-level ab initio calculations have been used to study the mechanism for the conversion of (3S,5S)-carbapenam to the biologically active beta-lactam antibiotic, (5R)-carbapenem, catalyzed by carbapenem synthase. This process involves epimerization at C5 and desaturation at C2/C3. Our calculations suggest that the reaction proceeds via initial abstraction of the C5 hydrogen atom, followed by epimerization. In addition, we have identified an attractive mechanism for coupling the epimerization and desaturation in thermodynamically favorable steps with the aid of an external reductant. Other mechanisms that have been examined have significantly higher energy requirements or do not appear to be consistent with available experimental evidence.

摘要

高级从头算计算已被用于研究由碳青霉烯合酶催化的(3S,5S)-碳青霉烯转化为生物活性β-内酰胺抗生素(5R)-碳青霉烯的机制。该过程涉及C5位的差向异构化和C2/C3位的去饱和。我们的计算表明，反应通过首先夺取C5氢原子，然后进行差向异构化来进行。此外，我们已经确定了一种有吸引力的机制，借助外部还原剂，在热力学有利的步骤中将差向异构化和去饱和偶联起来。所研究的其他机制具有明显更高的能量需求，或者似乎与现有实验证据不一致。

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碳青霉烯合酶对差向异构化和去饱和的异常双功能催化作用。

The unusual bifunctional catalysis of epimerization and desaturation by carbapenem synthase.

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