Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In Bacillus subtilis, genes involved in arginine and
ornithine
catabolism constitute two operons, rocABC and rocDEF. Inducible expression of these two operons is SigL-dependent and requires the
transcriptional activator
RocR. RocR is a member of the NtrC/NifA family of regulators. To study the molecular mechanisms leading to the activation of RocR, we constructed a series of mutants affected in various steps of arginine catabolism. Results obtained using these mutants strongly suggest that the true inducer is
ornithine
or citrulline. Constitutive mutants of rocR containing either missense mutations, frameshift mutations resulting from deletions, or in-frame deletions leading to the synthesis of N-terminal truncated RocR polypeptides were obtained. Analysis of these mutants indicates that the N-terminal part of RocR is an intramolecular repressor domain. AhrC is a second positive regulatory protein of the rocABC and rocDEF operons. Two missense mutations modifying the N-terminal domain of RocR led to high constitutive expression of the Roc regulon in the absence of AhrC. Constitutive RocR proteins still require the presence of UAS1 and therefore probably bending of the DNA region located between the UAS1 and the promoter, suggesting that AhrC is not involved in DNA bending which facilitates interaction between RocR and sigma54-RNA polymerase. We suggest that the positive role of AhrC involves protein-protein interaction with RocR.
...
PMID:Role of the transcriptional activator RocR in the arginine-degradation pathway of Bacillus subtilis. 919 9
The arginine deiminase (AD) system (ADS) is one of two major ammonia-generating pathways in the oral cavity that play important roles in oral biofilm pH homeostasis and oral biofilm ecology. To initiate a study of the Streptococcus gordonii ADS, the ADS gene cluster was isolated from subgenomic DNA libraries of S. gordonii DL1 by using an arcB-specific probe. Nucleotide sequence analysis revealed six open reading frames (ORFs) that were arranged contiguously; the first five ORFs were transcribed in the same direction, as an apparent operon, and the sixth was transcribed in the opposite direction. The ORFs were found to share significant homologies and to correspond closely in molecular mass to previously characterized arc genes; thus, they were designated arcA (AD), arcB (ornithine carbamyltransferase), arcC (carbamate kinase), arcD (arginine-
ornithine
antiporter), arcT (dipeptidase), and arcR (regulator). A putative sigma(70) promoter (ParcA [TTGTGT-N(19)-TAGAAT]) was mapped 5' to arcA by primer extension, and the expression of ParcA was shown to be inducible by arginine and repressible by glucose, in agreement with AD specific activities measured in the wild-type strain. To investigate the function of ArcR in the differential expression of the arc operon, arcR was insertionally inactivated by a KM resistance marker flanked by T4 transcription/translation termination signals, and the expression of ParcA was monitored by primer extension in the wild-type and ArcR-deficient strains. Lower levels of arcA expression, as well as lower levels of AD activity, were consistently observed in the ArcR-deficient strain compared to wild-type cells, regardless of the growth conditions. Thus, ArcR is a
transcriptional activator
that is required for induction and optimal expression of the S. gordonii ADS gene cluster.
...
PMID:Isolation and molecular analysis of the gene cluster for the arginine deiminase system from Streptococcus gordonii DL1. 1240 48
The arginine deiminase system (ADS) is responsible for the production of
ornithine
, CO2, ammonia, and ATP from arginine. The ADS of the oral bacterium Streptococcus gordonii plays major roles in physiologic homeostasis, acid tolerance, and oral biofilm ecology. To further our understanding of the transcriptional regulation of the ADS (arc) operon, the binding of the ArcR
transcriptional activator
, which governs expression of the ADS in response to arginine, was investigated by DNase I protection and gel mobility shift assays. An ArcR binding sequence was found that was 27 bp in length and had little sequence similarity to binding sites of other arginine metabolism regulators. The presence of arginine at physiologically relevant concentrations enhanced the binding of ArcR to its target. Using cat fusions, various deletion and substitution mutations within the putative ArcR footprint were shown to cause dramatic reductions in expression from the arcA promoter in vivo, confirming that the 27-bp sequence is required for optimal expression and induction of the ADS by arginine. Mutation of two putative catabolite response elements (CREs) within the arc promoter region showed that both CREs contribute to catabolite repression. A thorough understanding of the regulation of the ADS in S. gordonii and related organisms is needed to develop ways to exploit arginine catabolism for the control of oral diseases. Identification of the ArcR and CcpA binding sites lays the foundation for a more complete understanding of the complex interactions of multiple regulatory proteins with elements in the arc promoter region.
...
PMID:Characterization of cis-acting sites controlling arginine deiminase gene expression in Streptococcus gordonii. 1642 98
Whereas about 70 small non-coding RNAs have been found in the Escherichia coli genome, relatively little is known about regulatory RNAs from Gram-positive bacteria. Here, we demonstrate that the recently identified small untranslated RNA SR1 from the Bacillus subtilis genome is a regulatory RNA involved in fine-tuning of arginine catabolism. 2D protein gel electrophoresis indicated three possible SR1 targets that are regulated by the
transcriptional activator
AhrC, which was shown to be the primary target of SR1. In vitro pairing studies and an in vivo reporter gene test demonstrated a specific interaction between SR1 and ahrC mRNA. This interaction did not lead to degradation of ahrC mRNA, but inhibited translation at a post-initiation stage. Our data show that the Hfq chaperone was not required for the stabilization of SR1 in vivo. The amount of SR1 was increased upon addition of l-arginine and l-
ornithine
, but not l-citrulline or l-proline.
...
PMID:The small untranslated RNA SR1 from the Bacillus subtilis genome is involved in the regulation of arginine catabolism. 1702 May 85
This paper shows that compounds in defined growth media strongly influence the expression of the effectors of virulence in the human invasive pathogen Shigella flexneri. Ornithine in conjunction with uracil reduces the haemolytic ability of wild-type cultures more than 20-fold and the expression of the type III secretion system more than 8-fold, as monitored by an mxiC : : lacZ transcriptional reporter. mxiC gene expression is further decreased by the presence of methionine or branched-chain amino acids (15-fold or 25-fold at least, respectively). Lysine and a few other aminated metabolites (cadaverine, homoserine and diaminopimelate) counteract the
ornithine
-mediated inhibition of haemolytic activity and of the expression of a
transcriptional activator
virF reporter. The complete abolition of invasion of HeLa cells by wild-type bacteria by
ornithine
, uracil, methionine or branched-chain amino acids establishes that these metabolites are powerful effectors of virulence. These findings provide a direct connection between metabolism and virulence in S. flexneri. The inhibitory potential exhibited by the nutritional environment is stronger than temperature, the classical environmental effector of virulence. The implications and practical application of this finding in prophylaxis and treatment of shigellosis are discussed.
...
PMID:Metabolic control through ornithine and uracil of epithelial cell invasion by Shigella flexneri. 1946 Aug 19
Streptomyces clavuligerus NRRL3585 produces a clinically important ss-lactamase inhibitor, clavulanic acid (CA). In order to increase the production of CA, the glyceraldehyde-3-phosphate dehydrogenase (GAPDH) gene was deleted in S. clavuligerus NRRL3585 to overcome the limited glyceraldehyde-3-phosphate pool; the replicative and integrative expressions of ccaR (specific regulator of the CA biosynthetic operon) and claR (Lys-type
transcriptional activator
) genes were transformed together into deleted mutant to improve clavulanic acid production. We constructed two recombinant plasmids to enhance the production of CA in the gap1 deletion mutant of S. clavuligerus NRRL3585: pHN11 was constructed for overexpression of ccaR-claR, whereas pHN12 was constructed for their chromosomal integration. Both pHN11 and pHN12 transformants enhanced the production of CA by 2.59-fold and 5.85-fold, respectively, compared to the gap1 deletion mutant. For further enhancement of CA, we fed the pHN11 and pHN12 transformants
ornithine
and glycerol. Compared to the gap1 deletion mutant,
ornithine
increased CA production by 3.24- and 6.51-fold in the pHN11 and pHN12 transformants, respectively, glycerol increased CA by 2.96- and 6.21-fold, respectively, and
ornithine
and glycerol together increased CA by 3.72- and 7.02-fold, respectively.
...
PMID:Enhancement of clavulanic acid production by expressing regulatory genes in gap gene deletion mutant of Streptomyces clavuligerus NRRL3585. 2013 46
