Involvement of bacteriophage T4 genes in radiation repair

One interpretation of Ebisuzaki's (1966) observation that the functional survival of certain early phage T4 genes is identical in v⁺ and v -infected cells is that the product of the early gene being studied is essential for the successful completion of excision repair (which is known to be mediated by the v gene). An experiment designed to test this hypothesis is described, with results which fully support the idea. Assuming then that this interpretation is valid, it became possible to determine the involvement in excision repair of a much wider range of early genes by establishing whether or not the v allele affects their functional survival. In addition a comparable series of experiments was performed with phages carrying the u.v.-sensitive y mutation which is known to mediate a quite different type of repair in T4-infected cells.The results indicate that genes 1, 30, 42, 43 and 56 are involved in excision repair, but not genes 32, 41, 43 or 44. All these genes are however involved in y-mediated repair. It appears therefore that this latter repair system (which bears some resemblance to that controlled by the rec genes in bacteria) depends on normal phage DNA synthesis for its completion. However the repair synthesis following the excision of pyrimidine dimers in u.v.-irradiated T4 DNA seems distinct from normal DNA synthesis in that it does not involve certain of the early phage genes, and in particular does not utilize the DNA polymerase coded by gene 43. It is suggested that the polymerase activity associated with this repair synthesis is provided by the bacterial Kornberg polymerase pol I.