活性MCM六聚体的晶体结构分析。

Analysis of the crystal structure of an active MCM hexamer.

作者信息

Miller Justin M, Arachea Buenafe T, Epling Leslie B, Enemark Eric J

机构信息

Department of Structural Biology, St Jude Children's Research Hospital, Memphis, United States.

出版信息

Elife. 2014 Sep 29;3:e03433. doi: 10.7554/eLife.03433.

DOI:10.7554/eLife.03433

PMID:25262915

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4359371/

Abstract

In a previous Research article (Froelich et al., 2014), we suggested an MCM helicase activation mechanism, but were limited in discussing the ATPase domain because it was absent from the crystal structure. Here we present the crystal structure of a nearly full-length MCM hexamer that is helicase-active and thus has all features essential for unwinding DNA. The structure is a chimera of Sulfolobus solfataricus N-terminal domain and Pyrococcus furiosus ATPase domain. We discuss three major findings: 1) a novel conformation for the A-subdomain that could play a role in MCM regulation; 2) interaction of a universally conserved glutamine in the N-terminal Allosteric Communication Loop with the AAA+ domain helix-2-insert (h2i); and 3) a recessed binding pocket for the MCM ssDNA-binding motif influenced by the h2i. We suggest that during helicase activation, the h2i clamps down on the leading strand to facilitate strand retention and regulate ATP hydrolysis.

摘要

在之前的一篇研究文章（弗罗利希等人，2014年）中，我们提出了一种MCM解旋酶激活机制，但在讨论ATP酶结构域时受到限制，因为晶体结构中没有该结构域。在此，我们展示了一种几乎全长的具有解旋酶活性的MCM六聚体的晶体结构，因此它具有解开DNA所需的所有基本特征。该结构是嗜热栖热菌N端结构域和激烈火球菌ATP酶结构域的嵌合体。我们讨论了三个主要发现：1）A亚结构域的一种新构象，可能在MCM调节中起作用；2）N端变构通讯环中一个普遍保守的谷氨酰胺与AAA+结构域螺旋2插入序列（h2i）的相互作用；3）受h2i影响的MCM单链DNA结合基序的凹陷结合口袋。我们认为，在解旋酶激活过程中，h2i向下夹住前导链，以促进链的保留并调节ATP水解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2703/4359371/598db3409287/elife03433f001.jpg

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活性MCM六聚体的晶体结构分析。

Analysis of the crystal structure of an active MCM hexamer.

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