Bacteriophage production by doubly lysogenic Corynebacterium diphtheriae.

Parental and recombinant phage production by tandem, double lysogens of Corynebacterium diphtheriae was studied in strains in which the coupling of prophage markers and the order of prophage was established. The results from studies of mass lysates and single bursts showed that the recombinant class of phage, designated R1, was predominant in UV-induced lysates followed by the parental, P1 class and to a lesser extent the P2 and R2 classes. Single bursts of UV-treated cells contained phage from one to all four of the phage classes, and this appeared to reflect the action of two excision processes. The data indicate that recombinant phages R1 and R2 are formed by a process of general recombinational excision and that this is the primary event leading to phage production in both UV-irradiated and spontaneously induced double lysogens. This process, which depends on exchange between homologous genes and is reciprocal, accounts for the excision of R1 phage from the host chromosome. A second excision process, probably site-specific excision, also occurs in many of the same cells and accounts for the excision of P1, P2, and R2 phages. The significance of these results for the spread of toxinogenicity in strains of C. diphtheriae is discussed.