对清道夫mRNA脱帽活性的结构、机制和调控的见解。

Insights into the structure, mechanism, and regulation of scavenger mRNA decapping activity.

作者信息

Gu Meigang, Fabrega Carme, Liu Shin-Wu, Liu Hudan, Kiledjian Megerditch, Lima Christopher D

机构信息

Structural Biology Program, Sloan-Kettering Institute, New York, NY 10021, USA.

出版信息

Mol Cell. 2004 Apr 9;14(1):67-80. doi: 10.1016/s1097-2765(04)00180-7.

DOI:10.1016/s1097-2765(04)00180-7

PMID:15068804

Abstract

Complete removal of residual N-7 guanine cap from degraded messenger RNA is necessary to prevent accumulation of intermediates that might interfere with RNA processing, export, and translation. The human scavenger decapping enzyme, DcpS, catalyzes residual cap hydrolysis following mRNA degradation, releasing N-7 methyl guanosine monophosphate and 5'-diphosphate terminated cap or mRNA products. DcpS structures bound to m(7)GpppG or m(7)GpppA reveal an asymmetric DcpS dimer that simultaneously creates an open nonproductive DcpS-cap complex and a closed productive DcpS-cap complex that alternate via 30 A domain movements. Structural and biochemical analysis suggests an autoregulatory mechanism whereby premature decapping mRNA is prevented by blocking the conformational changes that are required to form a closed productive active site capable of cap hydrolysis.

摘要

从降解的信使核糖核酸中完全去除残留的N-7鸟嘌呤帽，对于防止可能干扰RNA加工、输出和翻译的中间体积累是必要的。人类清扫去帽酶DcpS在mRNA降解后催化残留帽的水解，释放出N-7甲基鸟苷单磷酸和5'-二磷酸终止帽或mRNA产物。与m(7)GpppG或m(7)GpppA结合的DcpS结构揭示了一种不对称的DcpS二聚体，它同时形成一个开放的无活性DcpS-帽复合物和一个封闭的有活性DcpS-帽复合物，二者通过30 Å的结构域运动交替转换。结构和生化分析表明存在一种自动调节机制，即通过阻断形成能够进行帽水解的封闭有活性位点所需的构象变化，来防止mRNA过早去帽。

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对清道夫mRNA脱帽活性的结构、机制和调控的见解。

Insights into the structure, mechanism, and regulation of scavenger mRNA decapping activity.

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