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DNA聚合酶V的活性形式是UmuD'(2)C-RecA-ATP。

The active form of DNA polymerase V is UmuD'(2)C-RecA-ATP.

作者信息

Jiang Qingfei, Karata Kiyonobu, Woodgate Roger, Cox Michael M, Goodman Myron F

机构信息

Department of Biological Sciences, University of Southern California, University Park, Los Angeles, California 90089-2910, USA.

出版信息

Nature. 2009 Jul 16;460(7253):359-63. doi: 10.1038/nature08178.

DOI:10.1038/nature08178
PMID:19606142
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2731490/
Abstract

DNA-damage-induced SOS mutations arise when Escherichia coli DNA polymerase (pol) V, activated by a RecA nucleoprotein filament (RecA*), catalyses translesion DNA synthesis. Here we address two longstanding enigmatic aspects of SOS mutagenesis, the molecular composition of mutagenically active pol V and the role of RecA*. We show that RecA* transfers a single RecA-ATP stoichiometrically from its DNA 3'-end to free pol V (UmuD'(2)C) to form an active mutasome (pol V Mut) with the composition UmuD'(2)C-RecA-ATP. Pol V Mut catalyses TLS in the absence of RecA* and deactivates rapidly upon dissociation from DNA. Deactivation occurs more slowly in the absence of DNA synthesis, while retaining RecA-ATP in the complex. Reactivation of pol V Mut is triggered by replacement of RecA-ATP from RecA*. Thus, the principal role of RecA* in SOS mutagenesis is to transfer RecA-ATP to pol V, and thus generate active mutasomal complex for translesion synthesis.

摘要

当被RecA核蛋白丝(RecA*)激活的大肠杆菌DNA聚合酶(pol)V催化跨损伤DNA合成时,就会出现DNA损伤诱导的SOS突变。在此,我们探讨SOS诱变两个长期存在的神秘方面,即具有诱变活性的pol V的分子组成以及RecA的作用。我们发现,RecA以化学计量的方式从其DNA 3'端转移一个RecA-ATP至游离的pol V(UmuD'(2)C),以形成具有UmuD'(2)C-RecA-ATP组成的活性诱变体(pol V Mut)。pol V Mut在没有RecA的情况下催化跨损伤合成,并在与DNA解离后迅速失活。在没有DNA合成的情况下,失活发生得更慢,同时复合物中保留RecA-ATP。pol V Mut的重新激活是由RecA中的RecA-ATP被取代触发的。因此,RecA*在SOS诱变中的主要作用是将RecA-ATP转移至pol V,从而生成用于跨损伤合成的活性诱变体复合物。

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