在对phi 105c4呈溶原性的枯草芽孢杆菌中由DNA介导的原噬菌体诱导

DNA-mediated prophage induction in Bacillus subtilis lysogenic for phi 105c4.

作者信息

Garro A J

出版信息

J Virol. 1973 Jul;12(1):18-24. doi: 10.1128/JVI.12.1.18-24.1973.

DOI:10.1128/JVI.12.1.18-24.1973

PMID:4199106

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC355224/

Abstract

Prophage was induced when strains of Bacillus subtilis 168 lysogenic for phi105c4 were grown to competence and exposed to specific bacterial DNAs. The time course of phage production was similar to that observed for mitomycin C induction of wild-type prophage. Induction was directly dependent upon DNA concentration up to levels which were saturating for the transformation of bacterial auxotrophic markers. The extent of induction varied with the source of DNA. The burst of phage induced by DNA isolated from a W23 strain of B. subtilis was fivefold less than that induced by DNA from B. subtilis 168 strains, while B. licheniformis DNA was completely inactive. This order of inducing activity was correlated with the ability of the respective DNAs to transform auxotrophic markers carried by one of the phi105c4 lysogens. Differences in inducing activity also were observed for different forms of phi105 DNA. The DNAs isolated from phi105 phage particles and phi105c4 lysogens were inactive, whereas DNA from cells lysogenized by wild-type phi105 induced a burst of phage. When tested for transforming activity, however, both phi105c4 and phi105 lysogen DNAs were equally effective. An induction mechanism which involves recombination at the prophage insertion site is proposed to explain these differences.

摘要

当对phi105c4呈溶原性的枯草芽孢杆菌168菌株生长至感受态并暴露于特定细菌DNA时，原噬菌体被诱导。噬菌体产生的时间进程与野生型原噬菌体经丝裂霉素C诱导时观察到的相似。诱导直接依赖于DNA浓度，直至达到对细菌营养缺陷型标记进行转化的饱和水平。诱导程度随DNA来源而异。从枯草芽孢杆菌W23菌株分离的DNA诱导的噬菌体爆发量比枯草芽孢杆菌168菌株的DNA诱导的少五倍，而地衣芽孢杆菌DNA则完全无活性。这种诱导活性顺序与各自DNA转化phi105c4溶原菌之一携带的营养缺陷型标记的能力相关。对于不同形式的phi105 DNA也观察到诱导活性的差异。从phi105噬菌体颗粒和phi105c4溶原菌分离的DNA无活性，而野生型phi105溶原化细胞的DNA诱导噬菌体爆发。然而，当测试转化活性时，phi105c4和phi105溶原菌DNA同样有效。提出了一种涉及原噬菌体插入位点重组的诱导机制来解释这些差异。

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