Fertility properties and regulation of antimicrobial substance production by plasmid SCP2 of Streptomyces coelicolor.

Streptomyces coelicolor A3(2) possesses two plasmids (SCP1 and SCP2) that act as sex factors. The plasmid deoxyribonucleic acid isolated from S. coelicolor A3(2) SCP1- strains A617 and A585 had the same molecular weight and endonuclease cleavage pattern as the SCP2 plasmid. The plasmidless strain S18 SCP2- was isolated from the A617 X A585 cross. SCP2 plasmid-containing strains acted as donors of chromosomal markers, whereas the plasmidless strain acted as recipient. The transfer of SCP2+ donor strain markers into the SCP2- recipient occurred at high frequencies (approximately 75%), was unidirectional, was initiated from a fixed region of the chromosome, and had the SCP2 fertility factor transferred first. The introduction of the SCP2 plasmid into a recipient strain greatly reduced the recombination frequency. These fertility properties differed from those previously reported, thereby suggesting that the SCP2 plasmid examined in this investigation may be an additional variant to those described in the literature. The SCP2 plasmid also regulated production of three antibacterial substances and conveyed resistance for S. coelicolor A3(2) strains against growth inhibition by one of them.

Construction and properties of hybrids obtained in interspecific crosses between Streptomyces coelicolor A3(2) and Streptomyces griseus Kr-15.

Recombinants between Streptomyces coelicolor A3(2) and Streptomyces griseus Kr-15 were obtained using methods of hybrid construction. Recombinant Rcg1, obtained from a cross between S. griseus and a S. coelicolor UF (SCPI-) strain, phenotypically resembled S. coelicolor UF strains and in crosses with a S. coelicolor NF donor strin produced recombinatn progeny at a frequency of 100%. Recominant Rcg3, like SCP1-carrying S. coelicolor strains, inhibited SCP1-strains of S. coelicolor and in crosses with a UF recipient strain of S. coelicolor generated recombinants at high frequency. In crosses between S. griseus and Rcgi the frequency of recombinant formation was increased about 100-fold relative to crosses between S. griseus and S. coelicolor. Effective transfer of S. grieseus and Rcg3 chromosomal markers into Rcg1 and S. coelicolor, respectively, indicated that S. griseus had donor properties. Studies of the ability of recombinants to support phage growth indicated that parental chromosomal fragments containing genes involved in control of phage-receptor formation and intracellular growth were present in the hybrids. Grisin-producing recombinants, capable of restricting phages attacking S. coelicolor and S. griseus, were obtained.

Characterization of temperate actinophage phi C31 isolated from Streptomyces coelicolor A3(2).

Actinophage phiC31 isolated from Streptomyces coelicolor A3(2), the only strain among actinomycetes for which a genetic map had been constructed, appears to be a typical temperate phage. After phiC31 infection, true lysogenic cultures arose which liberated phage and were immune to infection with homologous phage after repeated single-colony isolations and treatment with phage-specific antiserum. Clear-plaque (c) mutants were derived from phiC31 phage which failed to lysogenize sensitive cultures. Actinophage phiC31 has a temperature-sensitive stage of reproduction. A phage which reproduces with the same effectiveness at high (37 C) and low (28 C) temperatures has also been obtained. Heat-inducible (ct) mutants were isolated from this phage which were able to lysogenize sensitive cultures at 28 C but failed to do so at 37 C. Properties of ct mutants suggest that ct mutations involve a gene controlling maintenance of the lysogenic state in actinomycetes and synthesizing repressor, which may become heat-sensitive as a result of mutation.