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γ射线诱导大肠杆菌染色体双链断裂及其在细胞致死中的作用。

Induction by gamma irradiation of double-strand breaks of Escherichia coli chromosomes and their role in cell lethality.

作者信息

Bresler S E, Noskin L A, Suslov A V

出版信息

Biophys J. 1984 Apr;45(4):749-54. doi: 10.1016/S0006-3495(84)84218-6.

DOI:10.1016/S0006-3495(84)84218-6
PMID:6372880
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1434911/
Abstract

Viscoelastometric measurements of DNA from gamma-irradiated bacteria were used to identify the induction of double-strand breaks ( DSBs ) in the chromosome of Escherichia coli. It is shown by means of inhibitors of repair endonucleases and different repair mutants that most DSBs in DNA of E. coli, gamma-irradiated in buffer, arise from enzymatic incision of primary gamma-damages; therefore, previous conclusions regarding DSB repair must be reconsidered. Based on these results, much of the reparable damage is single-strand breaks, and this damage can initiate formation of gaps and ultimately, when repair is insufficient, generation of enzymatically caused DSBs . After extensive repair, the first residual DSB in the E. coli chromosome is generated at approximately 160 Gray (Gy), which corresponds to the D37 dose. We propose that DSBs induced directly by gamma-irradiation are not repaired in wild-type strains. In a recently isolated gamma-resistant strain, E. coli Gamr444 , the dose required for observation of DSB after postirradiation incubation is 1,000 Gy, which corresponds to the D37 of the strain. The resistance is proposed to be due to an ability to repair genuine DSBs .

摘要

通过对γ射线辐照细菌的DNA进行粘弹性测量,来确定大肠杆菌染色体中双链断裂(DSB)的诱导情况。利用修复核酸内切酶抑制剂和不同的修复突变体表明,在缓冲液中γ射线辐照的大肠杆菌DNA中的大多数DSB是由初级γ损伤的酶切产生的;因此,必须重新考虑先前关于DSB修复的结论。基于这些结果,大部分可修复损伤是单链断裂,这种损伤可引发缺口的形成,最终在修复不足时导致酶促产生DSB。经过广泛修复后,大肠杆菌染色体中的第一个残留DSB大约在160戈瑞(Gy)时产生,这与D37剂量相对应。我们提出,γ射线直接诱导的DSB在野生型菌株中无法修复。在最近分离出的γ抗性菌株大肠杆菌Gamr444中,辐照后孵育观察到DSB所需的剂量为1000 Gy,这与该菌株的D37相对应。这种抗性被认为是由于具有修复真正DSB的能力。

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