Structural and functional properties of aBacillus subtilis temperature-sensitive ?A factor

Abstract: Bacillus subtilis DB1005 is a temperature‐sensitive (Ts) sigA mutant containing double‐amino‐acid substitutions (I198A and I202A) on the hydrophobic face of the promoter −10 binding helix of σA factor. We have analyzed the structural and functional properties of this mutant σA factor both in vivo and in vitro. Our data revealed that the Ts σA factor possessed predominantly a multimeric structure which was prone to aggregation at restrictive temperature. The extensive aggregation of the Ts σA resulted in a very… Show more

“…By partial proteolysis, multiple flexible regions/domains in both B. subtilis and E. coli -specific primary sigma factors were detected previously (3, 4). Bioinformatic analyses including homology modeling indicate that S. aureus σ A also harbors 3–4 conserved regions/domains.…”

“…Currently, the exact reason of poor stability of S. aureus σ A is not known with certainty. We however noticed that thermostability of primary sigma factor of B. subtilis (3) is nearly similar to that of S. aureus σ A . Taken together, we speculate that the primary sigma subunits, which share extensive sequence identity with those of B. subtilis and S. aureus , might be unstable while in free form.…”

Stabilization of the primary sigma factor of Staphylococcus aureus by core RNA polymerase

“…By partial proteolysis, multiple flexible regions/domains in both B. subtilis and E. coli -specific primary sigma factors were detected previously (3, 4). Bioinformatic analyses including homology modeling indicate that S. aureus σ A also harbors 3–4 conserved regions/domains.…”

“…Currently, the exact reason of poor stability of S. aureus σ A is not known with certainty. We however noticed that thermostability of primary sigma factor of B. subtilis (3) is nearly similar to that of S. aureus σ A . Taken together, we speculate that the primary sigma subunits, which share extensive sequence identity with those of B. subtilis and S. aureus , might be unstable while in free form.…”

Stabilization of the primary sigma factor of Staphylococcus aureus by core RNA polymerase

Kinetic modelling and meta-analysis of the B. subtilis SigA regulatory network during spore germination and outgrowth

Properties of Bacillus subtilis σ ^A Factors with Region 1.1 and the Conserved Arg-103 at the N Terminus of Region 1.2 Deleted