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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The regulation of the synthesis of nucleoside metabolizing enzymes has been studied in cya and crp mutant strains of Escherichia coli. The synthesis of the cyt-enzymes, cytidine deaminase and uridine phosphorylase regulated by the cytR gene product, is activated by the cAMP-CRP complex. On the other hand the synthesis of the deoenzymes: deoxyriboaldolase, thymidine phosphorylase, phosphodeoxyribomutase and purine nucleoside phosphorylase, appears to be increased if an active cAMP-CRP complex cannot be formed. It also seems that nucleosides serve as poor carbon sources for cya and crp mutants; this could not solely be explained by low levels of nucleoside metabolizing enzymes nor by a deficiency in nucleoside uptake. Addition of casamino acids stimulated the growth of cya and crp mutants, with nucleosides as carbon sources. When grown on glucose and casamino acids growth could be stimulated by adenine and hypoxanthine nucleosides; these results suggest an impaired nitrogen metabolism in cya and crp mutants.
Mol Gen Genet 1976 Oct 18
PMID:Multiple regulation of nucleoside catabolizing enzymes in Escherichia coli: effects of 3:5' cyclic AMP and CRP protein. 18 98

Three temperature-sensitive mutant strains for RNA polymerase beta or beta' subunits (carrying mutations tsx, A2R7 and R120) were used in order to investigate the dependence of the induced lac expression on stimulation by cyclic AMP after the shift to non-permissive temperature. High temperature lowered the rate of beta-galactosidase synthesis. However, the low rate of synthesis could be strongly increased by cyclic AMP (30, 2.4 and 5.7-fold increases for tsX, A2R7 and R120 mutants, respectively). At the permissive temperature stimulation by cyclic AMP was less than 1.4-fold (minimal medium supplemented with glycerol). The results suggest that the maximal expression of the lac operon is saturated, that is, a hypothetical increase in RNA polymerase or cAMP-CRP concentration in the cell with not enhance the expression. The concept of saturation explains why it was possible to increase the beta-galactosidase synthesis in conditions of limited promoter binding activity of RNA polymerase through increase in concentration of cyclic AMP-CRP complex in the cell (addition of cyclic AMP) to the values higher than that observed on glycerol.
Mol Gen Genet 1979 Jun 20
PMID:Expression of the lac operon in RNA polymerase mutants of Escherichia coli K12. 22 41

Four starvation-inducible loci (stiA, stiB, stiC, and stiE) of Salmonella typhimurium have been extensively characterized as to their genetic and physiologic regulation, and their roles in survival during prolonged simultaneous phosphate (P)-, carbon (C)- and nitrogen (N)-starvation (PCN-starvation). Strains of S. typhimurium LT-2, isogenic with the exception of lacking either the stiA, stiB or stiC locus, died off more quickly and survived at much reduced levels compared with their wild-type parent. When certain sti mutations were combined in the same strain, we found that viability of these cultures declined even more rapidly, and starvation-survival was affected to levels over-and-above the additive effects of each individual mutation, indicating an epistatic relationship between these loci. All four sti loci were, directly or indirectly, under negative control by the crp gene product (cAMP receptor protein, CRP). With the exception of stiB, all were similarly regulated by the cya gene product (i.e., cAMP). This suggests that CRP acts alone, or with a signal molecule other than cAMP, to cause repression of the stiB locus. In addition, all four loci are under positive regulation by the relA gene product (i.e., ppGpp) during C- or N-starvation, but not P-starvation. Since not all relA-dependent sti loci are induced during both C- and N-starvation, we propose that two separate ppGpp-dependent pathways function during C-starvation and N-starvation, respectively. Possible models for separate P-, C- and N-starvation-induction pathways are discussed.
Mol Microbiol 1992 Jun
PMID:Starvation-inducible loci of Salmonella typhimurium: regulation and roles in starvation-survival. 132 Jul 26

Initiation of transcription from the cytRP promoter in Escherichia coli is activated by the cAMP-CRP complex and negatively regulated by the CytR repressor protein. By combining gel retardation and footprinting assays, we show that cAMP-CRP binds to a single site centered at position -64 and induces a considerable bend in the DNA. CytR binds to a region immediately downstream from, and partially overlapping, the CRP site, and induces a modest bend into the DNA. In combination, cAMP-CRP and CytR bind co-operatively to cytRP forming a nucleoprotein complex in which the proteins directly interact with each other and bind to the same face of the DNA helix. CytR binding concomitantly antagonizes the cAMP-CRP-induced bend. This study indicates that the minimal DNA region required to obtain CytR regulation consists of a single binding site for each of cAMP-CRP and CytR. The case described here, in which a protein-induced DNA bend is modulated by a second protein, may illustrate a mechanism that applies to other regulatory systems.
J Mol Biol 1992 Sep 20
PMID:cAMP-CRP activator complex and the CytR repressor protein bind co-operatively to the cytRP promoter in Escherichia coli and CytR antagonizes the cAMP-CRP-induced DNA bend. 132 49

Transcription of the Escherichia coli crp gene is negatively regulated by CRP-cAMP that binds to a specific site located downstream of the crp promoter. A second binding site for CRP-cAMP (CRP site II) exists upstream of the crp promoter. Using an in vitro transcription assay, we have demonstrated that CRP-cAMP activates transcription of crp in certain conditions. A promoter which carries an altered CRP-binding site II is no longer activated by CRP-cAMP, indicating that CRP site II mediates the activation of crp transcription. The concentrations of cAMP that are required for positive autoregulation are higher than those for negative autoregulation. Evidence for positive and negative autoregulation in vivo is presented by a quantitative S1 nuclease analysis.
Mol Microbiol 1992 Sep
PMID:A new aspect of transcriptional control of the Escherichia coli crp gene: positive autoregulation. 132 16

We recently described 17 anti-CRP mAb, seven to native- (or conformational) and 10 to neo- (or sequence-determined) epitopes, including several anti-neo-CRP mAb specific for CRP peptide 199-206. In the present study, four new anti-native- and four new anti-neo-CRP mAb were generated and characterized by ELISA reactivity with native and modified human and rabbit CRP, as well as binding to pronase fragments of human CRP in Western blots. Assays with 17 synthetic CRP peptides identified anti-neo-CRP mAb specific for peptides 1-16, 14-24 and 137-152, respectively. The anti-neo-CRP mAb were reacted with fragments obtained by digesting CRP with multiple additional enzymes, including Staphylococcal V8 protease, trypsin, elastase, plasmin, thrombin and alpha-chymotrypsin. Native CRP was remarkably resistant to enzymic digestion, particularly in the presence of calcium, but was readily cleavable upon denaturation. Twenty-three informative fragments served to further distinguish mAb reactivity with at least four additional neo-CRP epitopes, which presumptively included residues in the regions of amino acids 22-45, 41-61, 114-121 and 130-138, respectively. The eight epitopes identified corresponded well with predicted regions of CRP antigenicity. In addition, at least six distinct native or conformation-determined epitopes were delineated. Reactivity of the anti-neo-CRP mAb with fragments of CRP generated by PMN enzymes indicated that regions sensitive to cleavage by neutrophil enzymes are located at approximately 3, 10 and 16 kD from the amino terminus of the CRP subunit. We expect that the anti-CRP mAb described and mapped herein will be useful tools for the elucidation of CRP structure and function.
Mol Immunol 1992 May
PMID:Localization of sequence-determined neoepitopes and neutrophil digestion fragments of C-reactive protein utilizing monoclonal antibodies and synthetic peptides. 137 44

Escherichia coli integration host factor (IHF) binds with high affinity to two tandem IHF consensus sequences located upstream from the pL promoter of bacteriophage lambda. IHF was shown to stimulate transcription initiation from the pL promoter by increasing close complex formation (KB). We show here, by the use of reconstituted mutant RNA polymerases, that the C-terminal portion of the alpha subunit of RNA polymerase plays an essential role in the stimulation of transcription by IHF. Our results are in agreement with the hypothesis that IHF, like the cAMP-CRP activator, increases the affinity of RNA polymerase to the promoter by protein-protein interaction.
J Mol Biol 1992 Oct 20
PMID:Stimulation of the phage lambda pL promoter by integration host factor requires the carboxy terminus of the alpha-subunit of RNA polymerase. 143 3

The genes coding for the binding-protein-dependent lactose transport system and beta-galactosidase in Agrobacterium radiobacter strain AR50 were cloned and partially sequenced. A novel lac operon was identified which contains genes coding for a lactose-binding protein (lacE), two integral membrane proteins (lacF and lacG), an ATP-binding protein (lacK) and beta-galactosidase (lacZ). The operon is transcribed in the order lacEFGZK. The operon is controlled by an upstream regulatory region containing putative -35 and -10 promoter sites, an operator site, a CRP-binding site probably mediating catabolite repression by glucose and galactose, and a regulatory gene (lacl) encoding a repressor protein which mediates induction by lactose and other galactosides in wild-type A. radiobacter (but not in strain AR50, thus allowing constitutive expression of the lac operon). The derived amino acid sequences of the gene products indicate marked similarities with other binding-protein-dependent transport systems in bacteria.
Mol Microbiol 1992 Jul
PMID:Molecular analysis of the lac operon encoding the binding-protein-dependent lactose transport system and beta-galactosidase in Agrobacterium radiobacter. 163 Mar 15

Unlike classical bacterial repressors, the CytR repressor of Escherichia coli cannot independently regulate gene expression. Here we show that CytR binding to the deoP2 promoter relies on interaction with the master gene regulatory protein, CRP, and, furthermore, that cAMP-CRP and CytR bind co-operatively to deoP2. Using mutant promoters we show that tandem, properly spaced DNA-bound cAMP-CRP complexes are required for this co-operative binding. These data suggest that CytR forms a bridge between tandem cAMP-CRP complexes, and that cAMP-CRP functions as an adaptor for CytR. The implications of this new version of negative control in E. coli on bacterial gene expression and on combinatorial gene regulation in higher organisms are discussed.
Mol Microbiol 1991 Apr
PMID:A novel function of the cAMP-CRP complex in Escherichia coli: cAMP-CRP functions as an adaptor for the CytR repressor in the deo operon. 164 47

The Escherichia coli rpoB636 mutant is defective in the transcription of lac and other catabolite-sensitive operons. The lac promoter variant, UV5, which is independent of cyclic AMP and the cyclic AMP receptor protein, CRP, was also defective in rpoB636 mutants. The activity of the lac UV5 promoter was restored to wild-type levels by deletion of cya (adenylate cyclase) or crp. Cyclic AMP and CRP apparently act as inhibitors of the rpoB636 RNA polymerase.
J Mol Biol 1991 Nov 20
PMID:An Escherichia coli rpoB mutation that inhibits transcription of catabolite-sensitive operons. 166 71


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