单个工程化 DNA 双链断裂产生的染色体大片段重排。

Generation of Gross Chromosomal Rearrangements by a Single Engineered DNA Double Strand Break.

机构信息

Genetics Branch National Cancer Institute, National Institutes of Health, Bethesda, MD 20892, USA.

出版信息

Sci Rep. 2017 Feb 22;7:43156. doi: 10.1038/srep43156.

DOI:10.1038/srep43156

PMID:28225067

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5320478/

Abstract

Gross chromosomal rearrangements (GCRs), including translocations, inversions amplifications, and deletions, can be causal events leading to malignant transformation. GCRs are thought to be triggered by DNA double strand breaks (DSBs), which in turn can be spontaneous or induced by external agents (eg. cytotoxic chemotherapy, ionizing radiation). It has been shown that induction of DNA DSBs at two defined loci can produce stable balanced chromosomal translocations, however, a single engineered DNA DSB could not. Herein, we report that although a single engineered DNA DSB in H2AX "knockdown" cells did not generate GCRs, repair of a single engineered DNA DSB in fibroblasts that had ablated H2ax did produce clonal, stable GCRs, including balanced translocations and megabase-pair inversions. Upon correction of the H2ax deficiency, cells no longer generated GCRs following a single engineered DNA DSB. These findings demonstrate that clonal, stable GCRs can be produced by a single engineered DNA DSB in H2ax knockout cells, and that the production of these GCRs is ameliorated by H2ax expression.

摘要

染色体结构重排（GCR），包括易位、倒位、扩增和缺失，可能是导致恶性转化的因果事件。GCR 被认为是由 DNA 双链断裂（DSB）触发的，而 DSB 又可以是自发的，也可以是由外部因素诱导的（例如细胞毒性化疗药物、电离辐射）。已经表明，在两个明确的位点诱导 DNA DSB 可以产生稳定的平衡染色体易位，然而，单个工程化的 DNA DSB 却不能。在此，我们报告尽管在 H2AX“敲低”细胞中产生单个工程化的 DNA DSB 不会产生 GCR，但在已经消除 H2ax 的成纤维细胞中修复单个工程化的 DNA DSB 确实会产生克隆的、稳定的 GCR，包括平衡易位和兆碱基对倒位。在纠正 H2ax 缺陷后，细胞在单个工程化的 DNA DSB 后不再产生 GCR。这些发现表明，在 H2ax 敲除细胞中，单个工程化的 DNA DSB 可以产生克隆的、稳定的 GCR，并且 H2ax 的表达可以改善这些 GCR 的产生。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/abd7/5320478/6346deed44fb/srep43156-f1.jpg

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单个工程化 DNA 双链断裂产生的染色体大片段重排。

Generation of Gross Chromosomal Rearrangements by a Single Engineered DNA Double Strand Break.

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