Inactivation of prophage λ repressor in Vivo
1979
Abstract Jacob & Monod (1961) postulated that prophage A induction results from the inactivation of the λ repressor by a cellular inducer. Although it has been shown that the phage A repressor is inactivated by the recA gene product in vitro (Roberts et al. , 1978), we wanted to determine the action of the “cellular inducer” in vivo . Our results have led to a new model, which defines the relationship between the “cellular inducer” and the recA gene product. In order to quantitate the action of the cellular inducer on the λ repressor, we made use of bacteria with elevated cellular levels of the λ repressor (hyperimmune lysogens). We determined the kinetics of repressor inactivation promoted by three representative inducing treatments: ultraviolet light irradiation, thymine deprivation and temperature shift-up of tif -1 mutants. The kinetics of repressor decay in wild-type monolysogens indicate that repressor inactivation is a relatively slow cellular process that takes a generation time to reach completion. Incomplete inactivation of the repressor without subsequent prophage development may occur in a cell. We call this phenomenon detected at the biochemical level “subinduction”. In hyperimmune lysogens. subinduction is always the case. A high cellular level of A repressor that prevents prophage λ induction does not prevent induction of a heteroimmune prophage such as 434 or 80. Although the cellular inducer does not seem specific for any inducible prophage, it does not inactivate two prophage repressors present in a cell in a random manner. We have called this finding “preferential repressor inactivation”. Preferential repressor inactivation may be accounted for by considering that the intracellular concentration of a repressor determines its susceptibility to the action of the inducer. In bacteria with varying repressor levels, a fixed amount of repressor molecules is inactivated per unit of time irrespective of the initial repressor concentration. The rate of repressor inactivation depends on the catalytic capacity of the cellular inducer that behaves as a saturated enzyme. In wild-type bacteria the cellular inducer seems to be produced in a limited amount, to have a weak catalytic capacity and a relatively short half-life. The amount of the inducer formed after tif -1 expression is increased in STS bacteria overproducing a tif -1-modified RecA protein. This result is an indication that a modified form of the RecA protein causes repressor inactivation in vivo . From the results obtained we propose a model concerning the formation of the cellular inducer. We postulate that the cellular inducer is formed in a two-step reaction. The is model visualises how the RecA protein can be induced to high cellular concentrations, even though the RecAp protease molecules remain at a low concentration. The latter accounts for the limited proteolytic activity found in vivo .
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