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Enzyme
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Target Concepts:
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Query: EC:2.7.7.6 (
RNA polymerase
)
34,946
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
levanase
operon of Bacillus subtilis is controlled by
RNA polymerase
associated with sigma 54 factor and by the LevR activator that is homologous to the NifA/NtrC family of regulators. A "-12, -24" promoter is present at the appropriate distance from the transcription start site. The drastic down effect of base substitutions in the TGGCAC, TTGCA consensus sequence on the expression of the
levanase
operon confirmed the involvement of the "-12, -24" region in promoter function. Deletion derivatives of the upstream sequence of the operon promoter were constructed using translational levD'-'lacZ fusions and were integrated as single copies at the amyE locus of the B. subtilis chromosome. A cis-acting DNA sequence that is required for activation of the operon promoter by LevR was identified. This regulatory sequence is about 50 base-pairs long and is centered 125 base-pairs upstream from the transcription start site in a region containing a 16 base-pair palindromic structure. This region of dyad symmetry functions as a regulatory element when placed up to at least 600 base-pairs upstream from the "-12, -24" promoter, although the efficacy of activation is lowered. Thus, in common with most sigma 54-dependent promoters, an upstream activating sequence (UAS) is involved in the control of expression of the
levanase
operon. The isolation and characterization of eight mutations in the UAS region confirmed the importance of the palindromic structure in promoter activation. Moreover, the expression of the
levanase
operon was inhibited by placing the UAS in trans on a multicopy plasmid, probably through titration of the LevR polypeptide. In conclusion, the
levanase
promoter region can be divided into two regulatory sequences: the "-12, -24" promoter recognized by the sigma 54
RNA polymerase
holoenzyme and the UAS, an inverted repeat sequence that is probably the LevR binding site.
...
PMID:Mutagenesis of the Bacillus subtilis "-12, -24" promoter of the levanase operon and evidence for the existence of an upstream activating sequence. 161 65
The LevR protein is the activator of expression of the
levanase
operon of Bacillus subtilis. The promoter of this operon is recognized by
RNA polymerase
containing the sigma 54-like factor sigma L. One domain of the LevR protein is homologous to activators of the NtrC family, and another resembles antiterminator proteins of the BglG family. It has been proposed that the domain which is similar to antiterminators is a target of phosphoenolpyruvate:sugar phosphotransferase system (PTS)-dependent regulation of LevR activity. We show that the LevR protein is not only negatively regulated by the fructose-specific enzyme IIA/B of the phosphotransferase system encoded by the
levanase
operon (lev-PTS) but also positively controlled by the histidine-containing phosphocarrier protein (HPr) of the PTS. This second type of control of LevR activity depends on phosphoenolpyruvate-dependent phosphorylation of HPr histidine 15, as demonstrated with point mutations in the ptsH gene encoding HPr. In vitro phosphorylation of partially purified LevR was obtained in the presence of phosphoenolpyruvate, enzyme I, and HPr. The dependence of truncated LevR polypeptides on stimulation by HPr indicated that the domain homologous to antiterminators is the target of HPr-dependent regulation of LevR activity. This domain appears to be duplicated in the LevR protein. The first antiterminator-like domain seems to be the target of enzyme I and HPr-dependent phosphorylation and the site of LevR activation, whereas the carboxy-terminal antiterminator-like domain could be the target for negative regulation by the lev-PTS.
...
PMID:The HPr protein of the phosphotransferase system links induction and catabolite repression of the Bacillus subtilis levanase operon. 759 87
Gluconacetobacter diazotrophicus produces levan from sucrose by a secreted levansucrase (LsdA). A
levanase
-encoding gene ( lsdB), starting 51 bp downstream of the lsdA gene, was cloned from strain SRT4. The lsdB gene (1605 bp) encodes a protein (calculated molecular mass 58.4 kDa) containing a putative 36-amino-acid signal peptide at the N-terminus. The deduced amino acid sequence shares 34%, 33%, 32%, and 29% identities with levanases from Actinomyces naeslundii, Bacillus subtilis, Paenibacillus polymyxa, and Bacteroides fragilis, respectively. The lsdB expression in Escherichia coli under the control of the T7
RNA polymerase
promoter resulted in an active enzyme which hydrolyzed levan, inulin, 1-kestose, raffinose, and sucrose, but not melezitose. Levanase activity was maximal at pH 6.0 and 30 degrees C, and it was not inhibited by the metal ion chelator EDTA or the denaturing agents dithiothreitol and beta-mercaptoethanol. The recombinant LsdB showed a fourfold higher rate of hydrolysis on levan compared to inulin, and the reaction on both substrates resulted in the successive liberation of the terminal fructosyl residues without formation of intermediate oligofructans, indicating a non-specific exo-
levanase
activity.
...
PMID:Molecular cloning and expression in Escherichia coli of an exo-levanase gene from the endophytic bacterium Gluconacetobacter diazotrophicus SRT4. 1202 20
