Rev1、Rev3或Rev7小干扰RNA消除HeLa细胞中紫外线诱导的跨损伤复制：一项使用碱性蔗糖密度梯度沉降法的综合研究。

Rev1, Rev3, or Rev7 siRNA Abolishes Ultraviolet Light-Induced Translesion Replication in HeLa Cells: A Comprehensive Study Using Alkaline Sucrose Density Gradient Sedimentation.

作者信息

Takezawa Jun, Ishimi Yukio, Aiba Naomi, Yamada Kouichi

机构信息

Division of Genetic Biochemistry, The National Institute of Health and Nutrition, Shinjuku-ku, Tokyo 162-8636, Japan.

出版信息

J Nucleic Acids. 2010 Dec 1;2010:750296. doi: 10.4061/2010/750296.

DOI:10.4061/2010/750296

PMID:21151666

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2997509/

Abstract

When a replicative DNA polymerase stalls upon encountering a lesion on the template strand, it is relieved by other low-processivity polymerase(s), which insert nucleotide(s) opposite the lesion, extend by a few nucleotides, and dissociate from the 3'-OH. The replicative polymerase then resumes DNA synthesis. This process, termed translesion replication (TLS) or replicative bypass, may involve at least five different polymerases in mammals, although the participating polymerases and their roles have not been entirely characterized. Using siRNAs originally designed and an alkaline sucrose density gradient sedimentation technique, we verified the involvement of several polymerases in ultraviolet (UV) light-induced TLS in HeLa cells. First, siRNAs to Rev3 or Rev7 largely abolished UV-TLS, suggesting that these 2 gene products, which comprise Polζ, play a main role in mutagenic TLS. Second, Rev1-targeted siRNA also abrogated UV-TLS, indicating that Rev1 is also indispensable to mutagenic TLS. Third, Polη-targeted siRNA also prevented TLS to a greater extent than our expectations. Forth, although siRNA to Polι had no detectable effect, that to Polκ delayed UV-TLS. To our knowledge, this is the first study reporting apparent evidence for the participation of Polκ in UV-TLS.

摘要

当复制性DNA聚合酶在模板链上遇到损伤而停滞时，它会被其他低持续性聚合酶解救，这些聚合酶在损伤对面插入核苷酸，延伸几个核苷酸，然后从3'-OH处解离。复制性聚合酶随后恢复DNA合成。这个过程称为跨损伤复制（TLS）或复制性旁路，在哺乳动物中可能涉及至少五种不同的聚合酶，尽管参与的聚合酶及其作用尚未完全明确。使用最初设计的小干扰RNA（siRNA）和碱性蔗糖密度梯度沉降技术，我们验证了几种聚合酶参与HeLa细胞中紫外线（UV）诱导的TLS。首先，针对Rev3或Rev7的siRNA在很大程度上消除了UV-TLS，表明这两种构成Polζ的基因产物在致突变性TLS中起主要作用。其次，靶向Rev1的siRNA也消除了UV-TLS，表明Rev1对致突变性TLS也是不可或缺的。第三，靶向Polη的siRNA也比我们预期的更大程度地阻止了TLS。第四，尽管针对Polι的siRNA没有可检测到的影响，但针对Polκ的siRNA延迟了UV-TLS。据我们所知，这是第一项报道Polκ参与UV-TLS明显证据的研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/298d/2997509/755714d8268c/JNA2010-750296.001.jpg

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Rev1、Rev3或Rev7小干扰RNA消除HeLa细胞中紫外线诱导的跨损伤复制：一项使用碱性蔗糖密度梯度沉降法的综合研究。

Rev1, Rev3, or Rev7 siRNA Abolishes Ultraviolet Light-Induced Translesion Replication in HeLa Cells: A Comprehensive Study Using Alkaline Sucrose Density Gradient Sedimentation.

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