细菌和人类细胞中的非互补性DNA双链断裂重连

Noncomplementary DNA double-strand-break rejoining in bacterial and human cells.

作者信息

King J S, Valcarcel E R, Rufer J T, Phillips J W, Morgan W F

机构信息

Laboratory of Radiobiology and Environmental Health, University of California, San Francisco 94143-0750.

出版信息

Nucleic Acids Res. 1993 Mar 11;21(5):1055-9. doi: 10.1093/nar/21.5.1055.

DOI:10.1093/nar/21.5.1055

PMID:8464692

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC309262/

Abstract

We examined the rejoining of noncomplementary restriction enzyme-produced DNA double-strand breaks in Escherichia coli and in cultured human cells. The enzymes used in this study, ClaI, BamHI and SalI, produce double-strand breaks with 5 protruding single strands. The joining of a ClaI-produced DNA end to a BamHI-produced end or to a SalI-produced end was examined at the DNA sequence level. End rejoining in E.coli was studied by transforming cultures with linear plasmid DNA that was gel purified from restriction digests, and end rejoining in cultured human cells was studied by introducing enzymes into the cells by electroporation. The human cells used contain an Epstein-Barr virus (EBV)-based shuttle vector, pHAZE, that was recovered and introduced into E.coli for further analysis. The major products of DNA end-joining processes observed in linear plasmid-transformed E.coli and in the human cells exposed to restriction enzymes were identical. Furthermore, the deletions observed in both systems and in the spontaneous mutant plasmids in untreated human cells had a common underlying feature: short stretches of directly repeated DNA at the junction sites.

摘要

我们研究了大肠杆菌和培养的人类细胞中非互补限制性内切酶产生的DNA双链断裂的重新连接。本研究中使用的酶ClaI、BamHI和SalI产生具有5'突出单链的双链断裂。在DNA序列水平上检测了ClaI产生的DNA末端与BamHI产生的末端或SalI产生的末端的连接。通过用从限制性消化物中凝胶纯化的线性质粒DNA转化培养物来研究大肠杆菌中的末端重新连接，通过电穿孔将酶引入细胞来研究培养的人类细胞中的末端重新连接。所使用的人类细胞含有基于爱泼斯坦-巴尔病毒（EBV）的穿梭载体pHAZE，将其回收并引入大肠杆菌进行进一步分析。在线性质粒转化的大肠杆菌和暴露于限制性酶的人类细胞中观察到的DNA末端连接过程的主要产物是相同的。此外，在这两个系统以及未处理的人类细胞中的自发突变质粒中观察到的缺失具有一个共同的潜在特征：连接位点处有短的直接重复DNA片段。

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