The transfer of a Chl element, causing resistance to chloramphenicol in Streptomyces coelicolor A3(2), was studied in NF x SCP1- superfertile crosses. When the Chl element is on the donor side (NF) its transfer to the recombinant cells was virtually total as if the element acted as a second concomitant transfer origin. When the Chl element was on the recipient side (SCP1-) it was never displaced by the immigrant chromosome even when the region facing chl+ was selected for. A fraction of the original Chl- mutants presented a requirement for arginine (ArgB-). A Chl- mutant gave rise spontaneously to ArgB- derivatives at high frequency. The same ArgB- requirement come out at high frequency among Chl- derivatives from a cross NFChl- x SCP1-Chl+ in which neither parent required arginine or produced spontaneously arginine-less derivatives. It is suggested that the Chl element is a "transposable element" (Tn) presumably associated with "insertion sequences" (IS). The insertional inactivation of the Chl element may be accompanied or followed by a deletion in the adjacent ArgB gene.
SUMMARYAn element controlling chloramphenicol resistance (chl) was detected in Streptomyces coelicolor ~3(2). Strains sensitive to I pg chloramphenicol ml-l were obtained among dark scarlet variants. Transfer of the resistance factor was attempted in matings between chloramphenicol-resistant (Chl+) and chloramphenicol-sensitive (Chl-) strains, both of which lacked the SCPI fertility factor. Transfer of chl was obtained at a much higher rate than that expected for chromosomal markers in SCPI-x SCPI-matings. However, in these particular crosses the latter was also several times higher than usual. All recombinants for chromosomal markers were Chl+. Attempts to locate the chl element failed to distinguish between a chromosomal and an extrachromosomal site. The observed increase in the recombination frequency for chromosomal markers suggests that the chl element may promote recombination.
Hyphae from mixed cultures of complementary auxotrophs of Streptomyces coelicolor A3(2) did not grow on minimal media (MM) when fertility plasmids ( SCP1 and SCP2) were missing in both strains. The addition of one part per cent of complete medium (CM) to MM allowed growth of vigorous colonies among the tiny colonies of the parental types. The former, amounting to 1%-10% of the total population, turned out to be heterokaryons. They could be propagated on the same medium by plating of hyphal fragments. When five parts per cent of CM were added to MM, beside the heterokaryotic colonies, vigorous 'spindles' of aerial mycelium were formed whenever complementary colonies overlapped. When the SCP1 and SCP2 plasmids were present in one or both parents a clear constraint on the outburst of heterokaryotic aerial mycelium was observed.
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