A new epistasis group for the repair of DNA damage in bacteriophage T4: replication repair
- PMID: 3552872
- PMCID: PMC1216344
- DOI: 10.1093/genetics/115.3.405
A new epistasis group for the repair of DNA damage in bacteriophage T4: replication repair
Abstract
The gene 32 mutation amA453 sensitizes bacteriophage T4 to the lethal effects of ultraviolet (UV) irradiation, methyl methanesulfonate and angelicin-mediated photodynamic irradiation when treated particles are plated on amber-suppressing host cells. The increased UV sensitivity caused by amA453 is additive to that caused by mutations in both the T4 excision repair (denV) and recombination repair (uvsWXY) systems, suggesting the operation of a third kind of repair system. The mutation uvs79, with many similarities to amA453 but mapping in gene 41, is largely epistatic to amA453. The mutation mms1, also with many similarities to amA453, maps close to amA453 within gene 32 and is largely epistatic to uvs79. Neither amA453 nor uvs79 affect the ratio of UV-induced mutational to lethal hits, nor does amA453 affect spontaneous or UV-enhanced recombination frequencies. Gene 32 encodes the major T4 ssDNA-binding protein (the scaffolding of DNA replication) and gene 41 encodes a DNA helicase, both being required for T4 DNA replication. We conclude that a third repair process operates in phage T4 and suggest that it acts during rather than before or after DNA replication.
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