Acquired mutations in phage lambda genes O or P that enable constitutive expression of a cryptic lambdaN+cI[Ts]cro- prophage in E. coli cells shifted from 30 degreesC to 42 degreesC, accompanied by loss of immlambda and Rex+ phenotypes and emergence of a non-immune exclusion-state.

The majority of bacteria, which carry the N+-cI857[Ts]-cro--O+-P+ fragment of lambda genome, are killed when derepressed by shifting from 30 degreesC to 42 degreesC. Among rare survivors, we observed a proportion of colony-forming units (cfu) that retained the typical immlambda-immunity phenotype when grown at 30 degreesC; however, when shifted from 30 degreesC to 42 degreesC, they lost lambda immunity and acquired a non-immune exclusion-state (Nie phenotype). We also found that the immlambda survivor cfu quickly lost their Rex+ exclusion phenotype (as measured by T4rII plating inhibition) when shifted from 30 degreesC to 42 degreesC, even though they produced CII, which stimulates pE-cI-rexA-rexB transcription. The Nie phenotype was characterized by an inhibition of plating of the homoimmune phage, lambdawt, and the heteroimmune phage, lambdaimm434. However, lambdavir and spontaneous mutants of lambdawt (lambdase mutations localized within oR) escaped the Nie exclusion-state and plated efficiently on lawns of Nie cfu at 42 degreesC. Thus, we examined the scope of the Nie exclusion-state toward lambda mutants blocked for lysogeny, and lambda hybrids substituted for immunity or replication genes. Phage like lambdawt, competent for lysogeny, were severely excluded compared to some mutants of lambda defective for lysogeny. Among this latter type, there was high variance in the Nie exclusion of various cI mutants; some of which were not excluded. The Nie exclusion-state was attributed to the constitutive expression of the defective lambda fragment in the survivor cfu, made possible by the acquired replication defect(s). We characterized, both genetically and physically, the mutations in the defective integrated lambda prophage that permitted growth of the survivor cfu at 42 degreesC. In five of seven survivor cfu, we identified IS2 insertions within lambda genes O and P that can block replication initiation from the lambda fragment. The remaining survivor cfu had multiple base substitutions within the C-terminal end of O and N-terminal half of P, the majority of which were silent. In some of these mutants, either an ochre nonsense mutation or a single-base frameshift deletion inactivated P.