Abstract
The delta A factor of Bacillus subtilis DB1005 contains two amino acid substitutions (I198A and I202A) in the promoter-10 binding region. It has been confirmed that this delta factor is responsible for the temperature sensitivity of B. subtilis DB1005. An investigation was conducted into how the mutant delta A could cause temperature-sensitive (Ts) cell growth by analysing its structural stability, cellular concentration and transcriptional activity. The mutant delta A was unstable even at the permissive temperature of 37 degrees C (t1/2 59 min), whereas the wild-type counterpart was fairly stable under the same conditions (t1/2 > 600 min). However, neither wild-type delta A nor mutant delta A was stable at 49 degrees C (t1/2 34 min and 23 min, respectively). Analyses of the rates of delta A synthesis revealed that B. subtilis DB1005 was able to compensate for unstable delta A by elevating the level of delta A at 37 degrees C but not at 49 degrees C. Moreover, overexpression of the mutant delta A at 49 degrees C could not suppress the Ts phenotype of B. subtilis DB1005. This indicates that the temperature sensitivity of B. subtilis DB1005 is not due to insufficient delta A concentration in the cell. The greater decline of an already reduced activity of the mutant delta A at 49 degrees C suggests that the temperature sensitivity of B. subtilis DB1005 is instead the result of a very low activity of delta A; probably below a critical level necessary for cell growth.