Role of the sigma factor in transcription initiation in the absence of core RNA polymerase.

Sigma factors (sigmas) are bacterial transcription factors that bind core RNA polymerase (RNAP) and direct transcription initiation at cognate promoter sites. However, most of their functions have been investigated in the context of RNAP. This has made the exact function of sigma, and the importance of core RNAP in modulating sigma function, ambiguous.

Mechanism of regulation of prokaryotic tubulin-like GTPase FtsZ by membrane protein EzrA.

At initiation of cell division, FtsZ, a tubulin-like GTPase, assembles into a so-called Z-ring structure at the site of division. The formation of Z ring is negatively regulated by EzrA, which ensures only one ring at the midcell per cell cycle. The mechanism leading to the negative regulation of Z-ring formation by EzrA has been analyzed.

Transcription regulation of ezrA and its effect on cell division of Bacillus subtilis.

The EzrA protein of Bacillus subtilis is a negative regulator for FtsZ (Z)-ring formation. It is able to modulate the frequency and position of Z-ring formation during cell division. The loss of this protein results in cells with multiple Z rings located at polar as well as medial sites; it also lowers the critical concentration of FtsZ required for ring formation (P.

Properties of Bacillus subtilis sigma A factors with region 1.1 and the conserved Arg-103 at the N terminus of region 1.2 deleted.

sigma factors in the sigma(70) family can be classified into the primary and alternative sigma factors according to their physiological functions and amino acid sequence similarities. The primary sigma factors are composed of four conserved regions, with the conserved region 1 being divided into two subregions. Region 1.