靶向 DNA 切口的诱变途径和特征。

Pathways and signatures of mutagenesis at targeted DNA nicks.

机构信息

Department of Immunology, University of Washington Medical School, Seattle, Washington, United States of America.

Department of Biochemistry, University of Washington Medical School, Seattle, Washington, United States of America.

出版信息

PLoS Genet. 2021 Apr 15;17(4):e1009329. doi: 10.1371/journal.pgen.1009329. eCollection 2021 Apr.

DOI:10.1371/journal.pgen.1009329

PMID:33857147

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8078790/

Abstract

Nicks are the most frequent form of DNA damage and a potential source of mutagenesis in human cells. By deep sequencing, we have identified factors and pathways that promote and limit mutagenic repair at a targeted nick in human cells. Mutations were distributed asymmetrically around the nick site. BRCA2 inhibited all categories of mutational events, including indels, SNVs and HDR. DNA2 and RPA promoted resection. DNA2 inhibited 1 bp deletions but contributed to longer deletions, as did REV7. POLQ stimulated SNVs. Parallel analysis of DSBs targeted to the same site identified similar roles for DNA2 and POLQ (but not REV7) in promoting deletions and for POLQ in stimulating SNVs. Insertions were infrequent at nicks, and most were 1 bp in length, as at DSBs. The translesion polymerase REV1 stimulated +1 insertions at one nick site but not another, illustrating the potential importance of sequence context in determining the outcome of mutagenic repair. These results highlight the potential for nicks to promote mutagenesis, especially in BRCA-deficient cells, and identify mutagenic signatures of DNA2, REV1, REV3, REV7 and POLQ.

摘要

缺口是 DNA 损伤最常见的形式，也是人类细胞中诱变的潜在来源。通过深度测序，我们已经确定了促进和限制人类细胞靶向缺口的诱变修复的因素和途径。突变在缺口位点周围呈不对称分布。BRCA2 抑制了所有类别的突变事件，包括插入缺失、单核苷酸变异和 HDR。DNA2 和 RPA 促进了核酸酶的切割。DNA2 抑制 1 bp 的缺失，但也导致了更长的缺失，REV7 也是如此。POLQ 刺激了单核苷酸变异。对靶向同一靶位点的 DSBs 的平行分析表明，DNA2 和 POLQ（但不是 REV7）在促进缺失方面和 POLQ 在刺激单核苷酸变异方面具有相似的作用。在缺口处插入很少见，大多数插入只有 1 bp 长，就像 DSBs 一样。跨损伤聚合酶 REV1 刺激一个缺口处的+1 插入，但不刺激另一个缺口处的插入，这说明了序列背景在决定诱变修复结果方面的潜在重要性。这些结果突出了缺口促进诱变的潜力，尤其是在 BRCA 缺陷细胞中，并确定了 DNA2、REV1、REV3、REV7 和 POLQ 的诱变特征。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2b1f/8078790/5fd74d784c99/pgen.1009329.g001.jpg

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靶向 DNA 切口的诱变途径和特征。

Pathways and signatures of mutagenesis at targeted DNA nicks.

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