Effect of ultraviolet radiation on the Bacillus subtilis phages SPO2, SPP1 and φ29 and their DNAs

Mutation Research/DNA Repair Reports Pub Date : 1987-11-01 DOI:10.1016/0167-8817(87)90016-2

Abbie G. Freeman, Karen M. Schweikart, Lyndon L. Larcom

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引用次数: 7

Abstract

A comparative study of the effects of ultraviolet radiation on three Bacillus subtilis phages is presented. Phages φ29, SPP1 and SPO2c12 or their DNAs were irradiated by UVC (254 nm) and quantum yields for inactivation were calculated. For each phage, the purified DNA was found to be more sensitive than the intact virus when assayed in a uvr⁺ host. The data imply that this is because transfecting DNA is repaired less efficiently than DNA of the intact phage; rather than because of differences in sensitivity to lesion production. Even though φ29 has the smallest target size of the three phages, φ29 and its DNA are the most sensitive. Phages SPO2 and SPP1 code for gene products which complement the repair system of the host. The transfecting DNA of phage SPP1 is extremely sensitive to UV damage when assayed in a uvr⁻ host. This is attributed to the fact that in transfection SPP1 DNA must undergo recombination for productive infection to occur. The recombination process strongly interferes with the repair damaged DNA.

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紫外线辐射对枯草芽孢杆菌噬菌体SPO2、SPP1和φ29及其dna的影响

比较研究了紫外辐射对枯草芽孢杆菌噬菌体的影响。用UVC (254 nm)照射φ29、SPP1和SPO2c12噬菌体及其dna，计算灭活量子产率。当在uvr+宿主中检测时，对于每个噬菌体，纯化的DNA被发现比完整的病毒更敏感。数据表明，这是因为转染DNA的修复效率低于完整噬菌体的DNA;而不是因为对病变产生的敏感性不同。尽管φ29在三种噬菌体中具有最小的靶尺寸，但φ29及其DNA是最敏感的。噬菌体SPO2和SPP1编码补充宿主修复系统的基因产物。转染的噬菌体SPP1的DNA在紫外线-宿主中检测时对紫外线损伤非常敏感。这是由于SPP1 DNA在转染时必须经过重组才能发生生产性感染。重组过程强烈地干扰了受损DNA的修复。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mutation Research/DNA Repair Reports

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