Stress-response sigma factor σΗ is essential for morphological differentiation of Streptomyces coelicolor A3(2)

We previously cloned the sigH gene encoding a stress-response sigma factor sigma(H) in Streptomyces coelicolor A3(2), located in an operon with the gene encoding proposed anti-sigma factor UshX. To clarify the in vivo function of sigma(H), a stable null mutant of sigH was prepared by homologous recombination. This mutation appeared to have no obvious effect on vegetative growth, but dramatically affected morphological differentiation. Microscopy showed that the sigH mutant produced undifferentiated hyphae with rare spore chains, giving the colony a pale gray color compared to the dark gray wild-type spores. The sigH mutation partially affected growth under conditions of high osmolarity. Expression of the sigH operon was investigated in the S. coelicolor sigH mutant. Out of four promoters directing expression of the sigH operon, the sigH-P2 promoter--the only promoter preferentially induced by salt-stress conditions--was inactive in the sigH mutant. The results indicated that the sigH-P2 promoter is dependent (directly or indirectly) upon sigma(H) and that the operon is autocatalytically activated. We propose that in S. coelicolor sigma(H) has a dual role, regulating the osmotic response and morphological differentiation.     

A new gene, sigG, encoding a putative alternative sigma factor of Streptomyces coelicolor A3(2)

An oligonucleotide probe encoding a peptide motif conserved in all sigma factors was used to isolate a new gene, sigG, from a Streptomyces coelicolor A3(2) genomic library. The deduced protein of 263 amino acids with an M(r) of 29,422 showed the greatest similarity to the previously identified sporulation sigma factor (sigma F) of Streptomyces coelicolor, and general stress response sigma factor (sigma B) of Bacillus subtilis, mostly in domains suggested to be involved in recognition of -10 and -35 promoter regions. Southern-blot hybridization with DNA from several Streptomyces spp. revealed the presence of a similar gene in all strains tested. Disruption of the S. coelicolor sigG gene appeared to have no obvious effect on growth, morphology, differentiation, and production of pigmented antibiotic actinorhodin and undecylprodigiosin.     

The developmental fate of S. coelicolor hyphae depends upon a gene product homologous with the motility sigma factor of B. subtilis

In the mycelial prokaryote S. coelicolor, whiG is a gene dispensable for growth but needed for the earliest stages of spore formation in aerial hyphae. Nucleotide sequencing indicates that whiG encodes an RNA polymerase sigma factor highly similar to the motility sigma factor (sigma 28) of B. subtilis. High copy number of an intact whiG gene caused sporulation in vegetative hyphae that are usually fated to lyse without sporulating. However, the introduction of many copies of a sigma 28-dependent promoter from B. subtilis into S. coelicolor reduced sporulation, suggesting partial sequestration of the whiG gene product by the foreign promoter sequences. We propose that the level of whiG sigma factor is crucial in determining the developmental fate of hyphae.