噬菌体T4D基因59突变体的复制与重组
Replication and recombination of gene 59 mutant of bacteriophage T4D.
作者信息
Shah D B
出版信息
J Virol. 1975 Jan;17(1):175-82. doi: 10.1128/JVI.17.1.175-182.1976.
Abstract
After infection of Escherichia coli B with phage T4D carrying an amber mutation in gene 59, recombination between two rII markers is reduced two- to three-fold. This level of recombination deficiency persists even when burst size similar to wild type is induced by the suppression of the mutant DNA-arrest phenotype. In the background of two other DNA-arrest mutants in genes 46 and 47, a 10- to 11-fold reduction in recombination is observed. The cumulative effect of gene 59 mutation on gene 46-47 mutant suggests that complicated interactions must occur in the production of genetic recombinants. The DNA-arrest phenotype of gene 59 mutant can be suppressed by inhibiting the synthesis of late phage proteins. Under these conditions, DNA replicative intermediates similar to those associated with wild-type infection are induced. Synthesis of late phage proteins, however, results in the degradation of mutant 200S replicative intermediate into molecules are associated with membrane, they do not replicate. These results suggest a role for gene 59 product, in addition to a possible requirement of concatemeric DNA in late replication of phage T4 DNA.
摘要
用携带基因59琥珀突变的噬菌体T4D感染大肠杆菌B后,两个rII标记之间的重组减少了两到三倍。即使通过抑制突变体DNA停滞表型诱导出与野生型相似的裂解量,这种重组缺陷水平仍持续存在。在基因46和47的另外两个DNA停滞突变体的背景下,观察到重组减少了10到11倍。基因59突变对基因46 - 47突变体的累积效应表明,在遗传重组体的产生过程中必然发生了复杂的相互作用。基因59突变体的DNA停滞表型可以通过抑制晚期噬菌体蛋白的合成来抑制。在这些条件下,诱导出了与野生型感染相关的类似DNA复制中间体。然而,晚期噬菌体蛋白的合成导致突变体200S复制中间体降解为与膜相关的分子,它们不进行复制。这些结果表明,除了噬菌体T4 DNA晚期复制中可能需要串联DNA外,基因59产物也发挥了作用。
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