Jaffé-Brachet A, D'Ari R
J Virol. 1977 Sep;23(3):476-82. doi: 10.1128/JVI.23.3.476-482.1977.
Three mutants of bacteriophage P1 affected in their ability to maintain the lysogenic state stably are described here. These mutants were normal in lytic growth, but lysogenic derivatives segregated nonlysogens at abnormally high rates (1 to 30% per division). Cells harboring these mutant prophages were elongated or filamentous. The mutations responsible for this prophage instability fell into two classes on the bases of their genetic location, their effect on the ability to lysogenize recA bacteria, and their suppressibility by ant mutations eliminating antirepressor activity. The two mutants that were able to form recA lysogens showed the same prophage instability and partial inhibition of cell division in recA as in rec+ lysogens. The fact that plasmid-linked mutations can cause prophage instability suggests that P1 codes for at least some of the functions determining its own autonomy and segregation.
本文描述了三种噬菌体P1突变体,它们在稳定维持溶原状态的能力方面存在缺陷。这些突变体在裂解生长方面是正常的,但溶原衍生物以异常高的频率(每代1%至30%)分离出非溶原菌。携带这些突变原噬菌体的细胞呈细长形或丝状。根据其基因位置、对recA细菌溶原化能力的影响以及通过消除抗阻遏物活性的ant突变的可抑制性,导致这种原噬菌体不稳定性的突变分为两类。能够形成recA溶原菌的两个突变体在recA溶原菌中表现出与rec+溶原菌相同的原噬菌体不稳定性和对细胞分裂的部分抑制。与质粒连锁的突变可导致原噬菌体不稳定性,这一事实表明P1至少编码一些决定其自身自主性和分离的功能。