由于尿嘧啶掺入新生DNA而导致冈崎片段的短暂积累。

Transient accumulation of Okazaki fragments as a result of uracil incorporation into nascent DNA.

作者信息

Tye B K, Nyman P O, Lehman I R, Hochhauser S, Weiss B

出版信息

Proc Natl Acad Sci U S A. 1977 Jan;74(1):154-7. doi: 10.1073/pnas.74.1.154.

DOI:10.1073/pnas.74.1.154

PMID:319455

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC393216/

Abstract

Strains of Escherichia coli with a mutation in the sof (dnaS) locus show a higher than normal frequency of recombination (are hyper rec) and incorporate label into short (4-5S) DNA fragments following brief [3H]thymidine pulses [Konrad and Lehman, Proc. Natl. Acad. Sci. USA 72, 2150 (1975)]. These mutant strains have now been found to be defective in deoxyuridinetriphosphate diphosphohydrolase (dUTPase; deoxyuridinetriphosphatase, EC 3.6.1.23), the enzyme that catalyzes the hydrolysis of dUTP to dUMP and PPi. Reversion of one sof- mutation to sof+ restores dUTPase activity and abolishes the accumulation of labeled 4-5S DNA fragments. Mutants initially isolated as defective in dUTPase (dut-) are also hyper rec and show transient accumulation of short DNA fragments. Both the sof and dut mutations are located at 81 min on the E. coli map, closely linked to the pyrE locus. The sof and dut loci thus appear to be identical. A decrease in dUTPase as a consequence of a sof or dut mutation may result in the increased incorporation of uracil into DNA. Rapid removal of the uracil by an excision-repair process could then lead to the transient accumulation of short DNA fragments. It is possible that at least a portion of the Okazaki fragments seen in wild-type cells may originate in this way.

摘要

在sof（dnaS）基因座发生突变的大肠杆菌菌株表现出比正常频率更高的重组率（即超重组），并且在短暂的[3H]胸苷脉冲后，会将放射性标记掺入短（4 - 5S）DNA片段中[康拉德和莱曼，《美国国家科学院院刊》72, 2150 (1975)]。现已发现这些突变菌株在脱氧尿苷三磷酸二磷酸水解酶（dUTPase；脱氧尿苷三磷酸酶，EC 3.6.1.23）方面存在缺陷，该酶催化dUTP水解为dUMP和PPi。一个sof - 突变回复为sof + 会恢复dUTPase活性，并消除标记的4 - 5S DNA片段的积累。最初分离出的dUTPase缺陷型突变体（dut - ）同样是超重组的，并且显示出短DNA片段的短暂积累。sof和dut突变都位于大肠杆菌染色体图谱的81分钟处，与pyrE基因座紧密连锁。因此，sof和dut基因座似乎是相同的。由于sof或dut突变导致的dUTPase减少可能会导致尿嘧啶掺入DNA的增加。然后通过切除修复过程快速去除尿嘧啶可能会导致短DNA片段的短暂积累。有可能在野生型细胞中看到的至少一部分冈崎片段可能以这种方式产生。

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