Dark recovery of UV-irradiated phage T1 I. A minor recovery effect whose exclusion permits the study of survival kinetics under presumably repairless conditions

Abstract

The survival of UV-irradiated phage T1 is much lower in excision repair-deficient than in excision repair-proficient E. coli cells, due to lack of “host cell reactivation” (HCR). An additional decrease in phage survival occurs when repair-deficient (HCR −) host cells have been exposed to UV doses from 3000–10 000 erg mm −2 of 254 nm UV-radiation prior to infection. The observed effect is attributed to loss of a minor phage recovery process, which requires neither the bacterial excision repair nor the bacterial REC repair system. This type of recovery is little affected by caffeine or acriflavine at concentrations that preclude HCR completely. Its full inhibition by UV-irradiation of the cells requires an approximately 8 times larger dose than complete inhibition of HCR. In heavily preirradiated cells, the T1 burst size is extremely small and multiplicity reactivation is considerably less extensive than in unirradiated cells. Presumably the survival of singly infecting T1 in these cells reflects absence of any type of repair. The observed phage sensitivity and shape of the curve are compatible with the expectation for completely repairless conditions. The mechanism underlying the minor recovery is not known; theoretical considerations make a phage REC repair mechanism seem likely.