Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.23 (beta-galactosidase)
 14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanism of the interference of the antiviral antibiotic distamycin A with the bacterial cell has been investigated. Labelled distamycin A is firmly bound by E. coli cells and the binding process does not require metabolic energy as indicated by the use of inhibitors. The antibiotic does not induce gross alteration in the cell membrane but inhibits cyclic AMP accumulation in the cells exposed to a glucose-free medium. This inhibition is concomitant with that exerted on the synthesis of an inducible enzyme such as beta-galactosidase. By the method of pulse induction it appears that distamycin A exterts its inhibiting effect on inducible synthesis at the level of transcription. This effect is probably related to an interference with the positive control of enzyme synthesis performed via the system represented by cyclic AMP and the CRP protein.
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PMID:On the mechanism of inhibition of enzyme induction in Escherichia coli by distamycin A. 17 69

Interaction of negative (CytR) and positive (cAMP-CRP) control in the promoter region of the uridine phosphorylase (udp) gene of Escherichia coli has been studied by using udp-lac operon fusions in which the structural lacZ gene is expressed from the wild type promoter udpP+ or from mutant promoters udpP1 and udpP18. The specific activity of beta-galactosidase was examined in these fusions in cytR+ and cytR- backgrounds after introduction of specific mutations in crp locus, crp* and crp(a) altering interaction of CRP protein with catabolite-sensitive promoters. The data obtained using crp* mutation confirm the proposed model of the udp gene regulation, according to which CytR repressor protein interferes with CRP binding site in the promoter-operator region of the udp gene and thereby prevents the positive action of cAMP-CRP complex on the udp expression. Additional data in favor of this model were obtained using crp(a) mutation which most probably alters the structure of CRP protein in such a way that it exhibits more high affinity to the udp promoter, as compared to the CytR repressor protein. Indeed, taken by itself, the crp(a) mutation did not lead to any increase in the expression of udpP+-lac fusion under the conditions of cAMP limitation (on glucose-grown cells), in spite of whether or not the CytR repressor was present. However, when combined with the ptsG mutation or when cells were grown on succinate medium, complete constitutive expression of udpP+-lac fusion is observed, even in the presence of the cytR gene product. The effect of the crp(a) mutation was virtually the same in strains harboring udpP1-lac fusion. These data are in accordance with suggestion that udpP1 is a mutation in the site of the promoter-operator region that responds to the cytR gene product, while the corresponding binding site for CRP protein is still unaltered in this mutant. On the other hand, the crp(a) mutation causes only slight alteration in the expression of udpP18-lac fusion, providing additional evidence that udpP18 mutation seems to comprise a modification of the promoter-operator region, where binding sites for CRP and CytR proteins overlap.
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PMID:[Interaction of negative (CytT) and positive (cAMP-CRP) regulation in the promoter region of the uridine phosphorylase (udp) gene in Escherichia coli K-12]. 266 21

The lac operon shows anomalous expression in Proteus mirabilis: the maximal induced level is 10% or less of that in E. coli, while repression reduces this by a factor of only 2-5. We have sought to determine whether this effect relates in any way to CRP-mediated activation of expression, by comparing expression in P. mirabilis of lac operons (introduced for technical reasons on IncP1 plasmids) either regulatorily wild-type or bearing L8 or L8UV5. Derivatives of RP1 bearing L8UV5 were obtained by homogenotisation of pGC9114 (RP1::Tn951) in a L8UV5 background; while derivatives of RP4 bearing lac+, L8 or L8UV5 were obtained by Mu-mediated translocation of chromosomal regions bearing these alleles, following partial heat-induction of Mucts62 on pGM14 (RP4::Mucts62) in the appropriate hosts. These plasmids could be readily transferred to, and stably maintained in, the P. mirabilis strains employed. It was found that L8 reduced the maximal level of beta-galactosidase activity, and L8UV5 restored this activity to around wild-type, in P. mirabilis quantitatively very much as in E. coli. Nevertheless, the low maximal level of expression and high basal level characteristic of the former host were unchanged. The simplest explanation of these results is that P. mirabilis contains a protein that mimics the E. coli CRP protein in interacting with the appropriate DNA binding site and thereby stimulating transcription; and that the anomalous regulation of lac in this host is unconnected with the CRP system.
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PMID:Anomalous expression of the E. coli lac operon in Proteus mirabilis. I. Effects of L8 and L8 UV5. 644 Nov 2

Gene vfr previously described only in Pseudomonas aeruginosa was cloned, identified, and sequenced in cells of Pseudomonas chlororaphis 449; its localization in the chromosome was determined. Amino acid sequence of the protein encoded by gene vfr in P. chlororaphis 449 was shown to have a 83% identity with the Vfr protein of P. aeruginosa PAO1 and a 63% identity with the CRP protein of Escherichia coli. Amino acid residues that ensure the most important structural properties of the CRP protein, i.e., its binding to cAMP, RNA polymerase, and DNA, were identical or highly conserved in Vfr proteins of P. aeruginosa and P. chlororaphis 449. The cloned vfr gene of P. chlororaphis 449 was partially complementary to mutation at crp gene in cells of E. coli AM306 enhancing ten times synthesis of CRP protein-dependent beta-galactosidase. Unlike P. aeruginosa, the Vfr protein in cells of P. chlororaphis 449 does not participate in the regulation of synthesis of N-acyl-homoserine lactones.
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PMID:[Structure and expression of gene vfr in Pseudomonas chlororaphis 449]. 1982 40