A mutant sigma 32 with a small deletion in conserved region 3 of sigma has reduced affinity for core RNA polymerase.

sigma 70, encoded by rpoD, is the major sigma factor in Escherichia coli. rpoD285 (rpoD800) is a small deletion mutation in rpoD that confers a temperature-sensitive growth phenotype because the mutant sigma 70 is rapidly degraded at high temperature. Extragenic mutations which reduce the rate of degradation of RpoD285 sigma 70 permit growth at high temperature. One class of such suppressors is located in rpoH, the gene encoding sigma 32, an alternative sigma factor required for transcription of the heat shock genes. One of these, rpoH113, is incompatible with rpoD+. We determined the mechanism of incompatibility. Although RpoH113 sigma 32 continues to be made when wild-type sigma 70 is present, cells show reduced ability to express heat shock genes and to transcribe from heat shock promoters. Glycerol gradient fractionation of sigma 32 into the holoenzyme and free sigma suggests that RpoH113 sigma 32 has a lower binding affinity for core RNA polymerase than does wild-type sigma 32. The presence of wild-type sigma 70 exacerbates this defect. We suggest that the reduced ability of RpoH113 sigma 32 to compete with wild-type sigma 70 for core RNA polymerase explains the incompatibility between rpoH113 and rpoD+. The rpoH113 cells would have reduced amounts of sigma 32 holoenzyme and thus be unable to express sufficient amounts of the essential heat shock proteins to maintain viability.