在大肠杆菌中,RecJ对新生DNA的加工在停滞的复制叉处更有利于损伤修复而非跨损伤合成。
Nascent DNA processing by RecJ favors lesion repair over translesion synthesis at arrested replication forks in Escherichia coli.
作者信息
Courcelle Charmain T, Chow Kin-Hoe, Casey Andrew, Courcelle Justin
机构信息
Department of Biology, Portland State University, Box 751, Portland, OR 97207-0751, USA.
出版信息
Proc Natl Acad Sci U S A. 2006 Jun 13;103(24):9154-9. doi: 10.1073/pnas.0600785103. Epub 2006 Jun 5.
Abstract
DNA lesions that arrest replication can lead to rearrangements, mutations, or lethality when not processed accurately. After UV-induced DNA damage in Escherichia coli, RecA and several recF pathway proteins are thought to process arrested replication forks and ensure that replication resumes accurately. Here, we show that the RecJ nuclease and RecQ helicase, which partially degrade the nascent DNA at blocked replication forks, are required for the rapid recovery of DNA synthesis and prevent the potentially mutagenic bypass of UV lesions. In the absence of RecJ, or to a lesser extent RecQ, the recovery of replication is significantly delayed, and both the recovery and cell survival become dependent on translesion synthesis by polymerase V. The RecJ-mediated processing is proposed to restore the region containing the lesion to a form that allows repair enzymes to remove the blocking lesion and DNA synthesis to resume. In the absence of nascent DNA processing, polymerase V can synthesize past the lesion to prevent lethality, although this occurs with slower kinetics and a higher frequency of mutagenesis.
摘要
当未被准确处理时,阻止复制的DNA损伤可导致重排、突变或致死。在大肠杆菌中紫外线诱导DNA损伤后,RecA和几种recF途径蛋白被认为可处理停滞的复制叉,并确保复制准确恢复。在这里,我们表明,RecJ核酸酶和RecQ解旋酶在受阻复制叉处部分降解新生DNA,它们是DNA合成快速恢复所必需的,并可防止紫外线损伤的潜在诱变旁路。在没有RecJ或程度较轻的RecQ时,复制的恢复会显著延迟,并且恢复和细胞存活都依赖于聚合酶V的跨损伤合成。RecJ介导的处理过程被认为是将含有损伤的区域恢复到一种形式,使修复酶能够去除阻断损伤并恢复DNA合成。在没有新生DNA处理的情况下,聚合酶V可以越过损伤进行合成以防止致死,尽管这一过程动力学较慢且诱变频率较高。
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