|
pubmed:abstractText |
The Bacillus subtilis sacY and sacT genes encode antiterminator proteins, similar to the Escherichia coli bglG gene product and required for transcription of sucrose metabolism genes. A Tn10 insertion into bglP (formerly sytA) has been previously identified as restoring sucrose utilization to a strain with deletions of both sacY and sacT. The nucleotide sequence of bglP showed a high degree of homology with the E. coli bglF gene (BglF is a beta-glucoside permease of the phosphotransferase system and also acts as a negative regulator of the BglG antiterminator). Complementation studies of an E. coli strain with a deletion of the bgl operon showed that BglP was a functional beta-glucoside permease. In B. subtilis, bglP complemented in trans both the bglP::Tn10 original insertion and a phenotypically similar bglP deletion. Disruption of licT abolished the suppressor phenotype in a bglP mutant. LicT is a recently identified third B. subtilis antiterminator of the BglG/SacY family. These observations indicated that BglP was also a negative regulator of LicT. Both LicT and BglP seem to be involved in the induction by beta-glucosides of an operon containing at least two genes, bglP itself and bglH, encoding a phospho-beta-glucosidase. Other beta-glucoside genes homologous to bglP and bglH have been recently described in B. subtilis. Thus, B. subtilis possesses several sets of beta-glucoside genes, like E. coli, but these genes do not appear to be cryptic.
|
