Requirement for Protein Synthesis in rec-Dependent Repair of Deoxyribonucleic Acid in Escherichia coli after Ultraviolet or X Irradiation

Ann K. Ganesan; Kendric C. Smith

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Requirement for Protein Synthesis in rec-Dependent Repair of Deoxyribonucleic Acid in Escherichia coli after Ultraviolet or X Irradiation

机译：紫外线或X射线照射后大肠杆菌中脱氧核糖核酸的REC-依赖性修复中蛋白质合成的要求

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Deprivation of amino acids required for growth or treatment with chloramphenicol or puromycin after irradiation reduced the survival of Rec+ cells of Escherichia coli K-12 which had been exposed to either ultraviolet (UV) or X radiation. In contrast, these treatments caused little or no reduction in the survival of irradiated recA or recB mutants. The effect of chloramphenicol on the survival of X-irradiated cells was correlated with an inhibition of repair of single-strand breaks in irradiated deoxyribonucleic acid (DNA), previously shown to be controlled by recA and recB. In UV-irradiated cells no effect of chloramphenicol was detected on the repair of single-strand discontinuities in DNA replicated from UV-damaged templates, a process controlled by recA but not by recB. From this we concluded that inhibiting protein synthesis in UV or X-irradiated cells may interfere with some biochemical step in repair dependent upon the recB gene. When irradiated Rec+ cells were cultured for a sufficient period of time in minimal growth medium before chloramphenicol treatment their survival was no longer decreased by the drug. After X irradiation this occurred in less than one generation time of the unirradiated control cells. After UV irradiation it occurred more slowly and was only complete after several generation times of the unirradiated controls. These observations indicated that replication of the entire irradiated genome was probably not required for rec-dependent repair of X-irradiated cells, although it might be required for rec-dependent repair of UV-irradiated cells.

机译：辐射后缺乏氯霉素或嘌呤霉素生长或处理所需的氨基酸会降低大肠杆菌 K-12的Rec + 细胞的存活，该细胞已暴露于紫外线（紫外线）或X射线。相比之下，这些治疗几乎没有引起辐射的 recA 或 recB 突变体的存活率降低。氯霉素对X射线照射的细胞存活的影响与对被照射的脱氧核糖核酸（DNA）的单链断裂修复的抑制作用相关，先前证明是由 recA 和控制的recB 。在受紫外线照射的细胞中，未检测到氯霉素对从受紫外线损坏的模板复制的DNA的单链不连续性的修复作用，该过程受 recA 控制，但不受 recB 。由此得出的结论是，抑制受紫外线或X射线照射的细胞中蛋白质的合成可能会干扰依赖于 recB 基因的某些生化修复步骤。在用氯霉素处理之前，将经辐照的Rec + 细胞在最小生长培养基中培养足够的时间，其存活率不再因药物而降低。 X射线照射后，发生时间少于未照射的对照细胞的一代。在紫外线照射后，它发生得更慢，并且仅在未照射对照的几代之后才完成。这些观察结果表明， rec 依赖的X射线照射细胞的修复可能不需要整个照射基因组的复制，尽管 rec 依赖的X射线照射细胞的修复可能需要复制。紫外线照射的细胞。 展开▼

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《Journal of bacteriology》 |1972年第2期|共11页

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Ann K. Ganesan; Kendric C. Smith;
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1. Requirement for Protein Synthesis in rec-Dependent Repair of Deoxyribonucleic Acid in Escherichia coli after Ultraviolet or X Irradiation [J] . Ann K. Ganesan, Kendric C. Smith Journal of bacteriology . 1972,第2期

机译：紫外线或X射线照射后大肠杆菌中脱氧核糖核酸的REC-依赖性修复中蛋白质合成的要求

2. Inhibition of deoxyribonucleic acid repair in Escherichia coli by caffeine and acriflavine after ultraviolet irradiation. [J] . K Fong, R C Bockrath Journal of bacteriology . 1979,第2期

机译：咖啡因和a啶黄素在紫外线照射后抑制大肠杆菌中的脱氧核糖核酸修复。

3. Influence of Ribosides on Ultraviolet Resistance of Escherichia coli: Role of Deoxyribonucleic Acid Synthesis in the Ultraviolet Resistance Enhancement After Amino Acid Prestarvation [J] . Milena Sedliaková, Eva ?tefunková, ?ubica Bernátová Journal of bacteriology . 1971,第1期

机译：核苷对大肠杆菌抗紫外线性的影响：氨基酸预饥饿后脱氧核糖核酸合成在紫外线抗性增强中的作用

4. Dynamics of SOS-Response in UVR-Mutants of Escherichia Coli Cells under Ultraviolet Irradiation [C] . M.A. Tuchina, A.Yu. Parkhomenko, O.V. Belov, International School on Nuclear Physics Methods and Accelerators in Biology and Medicine . 2009

机译：紫外线辐照下大肠杆菌细胞UVR突变体中SOS响应的动态

5. Molecular mechanisms underlying the deoxyribonucleic acid helicase activity of Escherichia coli RecQ. [D] . Zittel, Morgan C. 2007

机译：大肠杆菌RecQ的脱氧核糖核酸解旋酶活性的分子机制。

6. Requirement for Protein Synthesis in rec-Dependent Repair of Deoxyribonucleic Acid in Escherichia coli after Ultraviolet or X Irradiation [O] . Ann K. Ganesan, Kendric C. Smith 1972

机译：紫外线或X射线照射后大肠杆菌中脱氧核糖核酸的REC-依赖性修复中蛋白质合成的要求

7. Requirement for Protein Synthesis in rec -Dependent Repair of Deoxyribonucleic Acid in Escherichia coli after Ultraviolet or X Irradiation [O] . Ann K. Ganesan, Kendric C. Smith 1972

机译：在紫外或X辐射后大肠杆菌中脱氧核糖核酸的蛋白质合成的要求

8. CYTOLOGICAL ANALYSIS OF ULTRAVIOLET IRRADIATED ESCHERICHIA COLI. II. ULTRAVIOLET INDUCTION OF E. COLI STRAIN K12 [R] . John I. Payne, Philip E. Hartman, Stuart Mudd 1955

机译：紫外线照射大肠杆菌的细胞学分析。 II。大肠杆菌K12的紫外诱导

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6. n-TiO<,2>在大肠杆菌紫外照射杀灭中的光敏催化 [C] . 杨秀梅 . '98全国光催化学术会议 . 1998

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机译：重组质体DNA pPA-OPRF-ETA，可合成杂种重组蛋白，包括外膜蛋白F的氨基酸序列和铜绿假单胞菌的外毒素，重组大肠杆菌-胰蛋白酶原-蛋白酶。，包括外膜蛋白F和外膜毒素铜绿假单胞菌的氨基酸序列，以及生产杂交重组蛋白的方法，其中包括外膜蛋白F和蛋白质膜外膜蛋白的氨基酸序列

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机译：编码具有D-氨基氨基酸氧化酶功能性活性杂交蛋白与几丁质偶联域（DAOcbd），pVR1的重组质粒，可在大肠杆菌细胞中合成其质粒，并重组大肠杆菌ST / C1的大肠杆菌Ep3（重组蛋白）。

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机译：重组质粒pPA-OPRF-ATOX-OPRI DNA，其编码杂合重组蛋白的合成，包括蛋白质F和I的氨基酸序列和外部膜的膜蛋白和铜绿假单胞菌-铜绿蛋白-环糊精，埃塞氏菌的缺氧变异-混合重组蛋白的生产者和获得特定蛋白的方法

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Requirement for Protein Synthesis in rec-Dependent Repair of Deoxyribonucleic Acid in Escherichia coli after Ultraviolet or X Irradiation

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