Suppression of the Bgl+ phenotype of a delta hns strain of Escherichia coli by a Bacillus subtilis antiterminator binding site.

International audienceBacillus subtilis, like Escherichia coli, possesses several sets of genes involved in the utilization of beta-glucosides. In E. coli, all these genes are cryptic, including the genes forming the bgl operon, thus leading to a Bgl- phenotype. We screened for B. subtilis chromosomal DNA fragments capable of reverting the Bgl+ phenotype associated with an E. coli hns mutant to the Bgl- wild-type phenotype. One B. subtilis chromosomal fragment having this property was selected. It contained a putative Ribonucleic AntiTerminator binding site (RAT sequence) upstream from the bgl gene. Deletion studies as well as subcloning experiments allowed us to prove that the putative B. subtilis of the E. coli bgl operon. We propose that this repression results from the titration of the BglG antiterminator protein of E. coli bgl operon by our putative B. subtilis bglP RAT sequence. Thus, we report evidence for a new cross interaction between heterologous RAT-antiterminator protein pairs

Folded chromosomes of vegetative Bacillus subtilis: composition and properties.

The isolation of folded DNA from Bacillus subtilis, a Gram positive bacterium is described. When the lysis was achieved with 1 M NaCl a slow sedimenting nucleoid was obtained (1600-2000 S). Conversely, when the lysis was achieved with 0.2 M NaCl a fast sedimenting nucleoid was obtained (3500-4000 S). The yield of folded DNA was between 80 to 90 % of the total lysate DNA. Both nucleoids contained the same amount of RNA, but the relative proportions of lipids and proteins were different. Folded chromosomes were prepared in the presence of spermidine: artifactual protein binding is shown to be unlikely. Electrophoresis of nucleoid proteins showed a dominant polypeptide (MW = 36,000), which remained associated with DNA after sarcosyl treatment and could be partially removed by heat mediated DNA unfolding. In vitro transcription by endogenous RNA polymerase bound to the fast sedimenting-nucleoid was rifamycin resistant; the template capacity of the fast sedimenting-nucleoid was compared with that of the completely unfolded chromosomes

Characterization of an lrp-like (lrpC) gene from Bacillus subtilis.

International audienceIn the course of the Bacillus subtilis genome sequencing project, we identified an open reading frame encoding a putative 16.4 kDa protein. This protein shows, respectively, 34% and 25% identity with the Escherichia coli regulatory proteins Lrp and AsnC. Phylogenetic analysis suggests that it represents a new group in the AsnC-Lrp family. Sequence comparisons, as well as immunodetection experiments, lead to the conclusion that the product of this B. subtilis lrp-like-gene is a bona fide Lrp protein-the first one to be detected in gram-positive bacteria. When expressed in E. coli, the B. subtilis Lrp-like protein is able to repress, by about two-fold, the expression of the ilvIH operon which is normally regulated by E. coli Lrp, indicating functional similarity in their regulatory targets. Vegetative growth of a B. subtilis lrp-like mutant is not affected in rich medium. However, the lrp-like mutation causes a transitory inhibition of growth in minimal medium in the presence of valine and isoleucine, which is relieved by leucine. This points to a possible role in regulation of amino acid metabolism. In addition, sporogenesis occurs earlier in the lrp-like mutant than in the reference strain, implying that the B subtilis Lrp-like protein plays a role in the growth phase transition