SigB, SigC, and SigE from Myxococcus xanthus homologous to sigma32 are not required for heat shock response but for multicellular differentiation

Myxococcus xanthus has been known to have multiple sigma factors which are considered to play important roles in regulation of gene expression in development. A new gene encoding a putative sigma factor, sigE, was cloned by using a degenerate oligonucleotide corresponding to the conserved region 2.2 of M. xanthus SigA. In the 2.0-kb nucleotide sequence, an open reading frame consisting of 280 amino acid residues was identified. The amino acid sequence of SigE shows high similarity to heat shock sigma factors in bacteria. However, the sigE gene is not induced by heat shock and deletion of sigE does not affect production of heat shock proteins. SigE is expressed during both vegetative growth and fruiting body development. In the deletion mutant of the sigE gene fruiting body formation is initiated earlier and fewer spores are produced than in the parent strain. Interestingly, the deltasigE mutant shows defects in fruiting body formation at 37 degrees C. In addition to SigE, SigB and SigC show high sequence similarity to heat shock sigma factors. However, even if all three sigma factor genes are disrupted, heat shock proteins are still normally induced. A deltasigBdeltasigCdeltasigE triple deletion strain forms fruiting bodies earlier, but sporulats later than the parent strain. Spores from the triple deletion mutant are aberrant and their viability is less than 0.001% compared with that of the parent strain, suggesting that these sigma factors may have redundant functions in multicellular differentiation of M. xanthus.