变构作用：调节氨基酸代谢酶的多种 ACT 结构域。

Allosteric ACTion: the varied ACT domains regulating enzymes of amino-acid metabolism.

机构信息

Maurice Wilkins Centre, Biomolecular Interaction Centre, Department of Chemistry, University of Canterbury, Christchurch, New Zealand.

Institute of Fundamental Sciences, Massey University, Palmerston North, New Zealand.

出版信息

Curr Opin Struct Biol. 2014 Dec;29:102-11. doi: 10.1016/j.sbi.2014.10.007. Epub 2014 Nov 21.

DOI:10.1016/j.sbi.2014.10.007

PMID:25543886

Abstract

Allosteric regulation of enzyme activity plays important metabolic roles. Here we review the allostery of enzymes of amino-acid metabolism conferred by a discrete domain known as the ACT domain. This domain of 60-70 residues has a βαββαβ topology leading to a four-stranded β4β1β3β2 antiparallel sheet with two antiparallel helices on one face. Extensive sequence variation requires a combined sequence/structure/function analysis for identification of the ACT domain. Common features include highly varied modes of self-association of ACT domains, ligand binding at domain interfaces, and transmittal of allosteric signals through conformational changes and/or the manipulation of quaternary equilibria. A recent example illustrates the relatively facile adoption of this versatile module of allostery by gene fusion.

摘要

别构调节在酶活性中起着重要的代谢作用。在这里，我们回顾了由一个离散的结构域（称为 ACT 结构域）赋予的氨基酸代谢酶的别构调节。这个由 60-70 个残基组成的结构域具有 βαββαβ 的拓扑结构，形成一个四股的β4β1β3β2 反平行片层，在一个面上有两条反平行的螺旋。广泛的序列变异需要结合序列/结构/功能分析来识别 ACT 结构域。常见的特征包括 ACT 结构域的高度变化的自组装模式、在结构域界面处的配体结合，以及通过构象变化和/或操纵四级平衡来传递别构信号。最近的一个例子说明了这种多功能别构模块相对容易被基因融合所采用。

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变构作用：调节氨基酸代谢酶的多种 ACT 结构域。

Allosteric ACTion: the varied ACT domains regulating enzymes of amino-acid metabolism.

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