The Bacillus subtilis htpG gene is not involved in thermal stress management.

Abstract

To study the influence of the htpG gene on thermal stress management in Bacillus subtilis, two different kinds of htpG mutation were constructed. In one case, the gene was inactivated by insertion of a cat cassette in to the coding region; htpG was thus found to be non-essential. In the second case, the htpG gene was fused to a xylose-dependent promoter, allowing expression of the gene to be controlled. In the absence of HtpG protein, recovery of cells from a heat shock at 53 degrees C was retarded, and this delay could be eliminated by overproduction of HtpG. While htpG is not involved in the development of induced thermotolerance, DnaK and GroE proteins are absolutely required. Overproduction of class I heat-shock proteins prior to shifting cells to a lethal temperature is important but not sufficient for the development of intrinsic thermotolerance. It could be shown that the HtpG protein does not act as a cellular thermometer in B. subtilis.