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

Initiation of transcription at malEp and malKp, two divergent Escherichia coli promoters, depends on the presence of both CRP, a pleiotropic activator, and MalT, the maltose regulon activator. We carried out in vivo genetic and functional analysis of these promoters and characterized their interaction with MalT and CRP using DNase I footprinting. The functional limits of the promoters are located about 240 base-pairs (bp) upstream of their transcription start sites, which are 271 bp apart. These promoters therefore overlap by about 210 bp. The overlapping region encompasses four CRP-binding sites and at least four MalT-binding sites. Insertions in the centre of this region are tolerated provided that they correspond to an integral number of DNA helix turns. In DNase I footprinting experiments performed on the complex formed by MalT with malEp-malKp, the DNA appears to be wrapped around the protein. We propose a model for the nucleoprotein structure that might be involved in transcription activation at these divergent promoters.
J Mol Biol 1989 Feb 05
PMID:A complex nucleoprotein structure involved in activation of transcription of two divergent Escherichia coli promoters. 253 30

Analysis of the induction of expression of cea-lacZ fusions in cya and crp mutants showed that catabolite repression affects the kinetics of induction and the rate of induced synthesis. In a cya mutant, addition of cAMP reduced the induction lag and increased the amount of beta-galactosidase produced. The CRP-cAMP complex was found to bind to two sites 5' to the cea promoter, but deletion analysis showed that only one of these was involved in the control of cea. Deletion of this site resulted in a loss of the stimulatory effects of cAMP in a cya mutant.
Mol Gen Genet 1989 Feb
PMID:Interaction of the CRP-cAMP complex with the cea regulatory region. 254 Apr 17

Transcriptional regulation of the deoP2 promoter by the cyclic AMP/cyclic AMP receptor protein complex (cAMP/CRP) and the CytR repressor requires two high-affinity CRP targets located around -41 and -93 bp preceding the start site for transcription. Here we report the structure of cddP, another CRP/CytR-regulated promoter. In common with what was found in deo, the cdd promoter also contains multiple CRP targets. Thus, using the DNasel footprinting procedure, tandem CRP binding sites were identified around -41 and -93. These findings support a general model for CytR binding and CytR regulation, in which (i) CytR and the CRP/cAMP complex bind to similar or identical targets, (ii) two or more targets are necessary for proper binding of CytR to a promoter region, and (iii) CytR represses transcription by antagonizing cAMP/CRP activation.
Mol Microbiol 1989 Oct
PMID:CRP/cAMP- and CytR-regulated promoters in Escherichia coli K12: the cdd promoter. 257 2

Transcription of the genes encoding pilus-adhesin of serotype F13 in digalactoside-binding Escherichia coli required activation by the cAMP-CRP complex. Analysis of protein-DNA interaction in vitro showed that CRP bound in a cAMP-dependent manner to a sequence located 0.2 kb upstream of the point of transcription initiation of the pilus subunit operon. The cAMP-CRP activation included, in addition to the main pilus operon, the oppositely oriented operon encoding the Papl regulatory protein. Furthermore, the auto-regulatory product of the promoter-proximal gene (papB) in the pilus subunit operon was found to stimulate the papl transcriptional unit. Thus the cAMP-CRP complex and PapB might act in concert and indirectly promote pili synthesis by stimulating expression of the Papl positive regulator. The results of trans-complementation experiments and analyses using lacZ operon fusion derivatives showed that the cAMP-CRP activation also operated directly in cis on the pilus subunit operon. The region containing the CRP binding site appeared to function as an upstream activating sequence since deletion abolished expression even when the pap regulatory proteins Papl and PapB were supplied in trans. The implications for possible mechanisms of transcriptional activation by the cAMP-CRP complex at this novel location between the two oppositely oriented operons are discussed.
Mol Microbiol 1989 Nov
PMID:Upstream activating sequences that are shared by two divergently transcribed operons mediate cAMP-CRP regulation of pilus-adhesin in Escherichia coli. 257 4

We identified the predominant 5' ends of an mRNA in Escherichia coli to the exact nucleotides. There are four such ends of lac mRNA in fully induced cells. About 70% of the molecules have the reported major in vitro end, A-A-U-U-G (at +1), which is located 38 nucleotides before the A-U-G translation start. Another 15% start with A-U-U-G at +2, and about 8% start with A-U-U-A-G at -52. A fourth class of molecules begin with either A-G, C-A-G, A-C-A-G, or a weak A-C-A-C-A-G (at +24), observed only once. The origins of this latter set (less than or equal to 10% of the total) are not known, but they could represent "ragged" ends of the mRNA when it is degraded to the beginning of the ribosome-protected region of the message. The A-U-U-A-G molecules are probably initiated from an upstream promoter whose position would coincide with the cAMP-CRP DNA binding site for the major promoter.
J Mol Biol 1985 Mar 20
PMID:The 5' ends of Escherichia coli lac mRNA. 258 40

The binding of the cyclic adenosine 3',5' monophosphate receptor protein (CRP or CAP) of Escherichia coli to non-specific DNA and to a specific lac recognition sequence has been investigated by circular dichroism (c.d.) spectroscopy. The effect of cAMP and cGMP on the co-operative non-specific binding was also studied. For the non-specific binding in the absence of cAMP a c.d. change (decrease of the intensity of the positive band with a shift of its maximum to longer wavelength) indicates that the DNA undergoes a conformational change upon CRP binding. This change might reflect the formation of the solenoidal coil previously observed by electron microscopy. The amplitude of the c.d. change increases linearly with the degree of saturation of the DNA and does not depend on the size of the clusters of CRP bound. From the variation of the c.d. effect as a function of the ionic strength, the product K omega (K, the intrinsic binding constant and omega, the co-operativity parameter) could be determined. The number of ion pairs involved in complex formation between CRP and DNA was found to be six to seven. Experiments performed with several DNAs, including the alternating polymers poly[d(A-T)] and poly[d(G-C)], demonstrated that the conformational change does not depend on the DNA sequence. However, in the presence of cAMP the c.d. spectrum of the DNA shows only a small variation upon binding CRP. In contrast, in the presence of cGMP the conformational change of the DNA is similar to that observed when non-liganded CRP binds. For the specific lac operon binding, the c.d. change is different from those observed for non-specific binding in the presence or absence of cAMP. These results emphasize the high variability of the DNA structure upon binding the same protein.
J Mol Biol 1987 May 05
PMID:Interaction between the cyclic AMP receptor protein and DNA. Conformational studies. 282 Dec 69

Theoretical analysis of DNA sequences revealed recognition sites for two global E. coli cellular regulons in M13, fd and fl phage's genomes. Both Px and Pv promoters have SOS operator sequences and therefore must be repressed by the lexA protein. PIII and PIV contains CRP-cAMP recognition sequences in activating positions and hence will be activated by the cAMP receptor protein. The model is proposed for the phage life cycle's control in the persistent infection of E. coli cells by F-specific filamentous phages.
Mol Biol (Mosk)
PMID:[The SOS and catabolytic repression systems can play a key role in the regulation of infection of Escherichia coli cells with F-specific filamentous phages M13, f1 and fd]. 282 84

Using recombinant DNA techniques, nested deletions have been made upstream of the Escherichia coli nirB transcription start site and their effects on the regulation of nirB promoter activity have been measured. Nucleotide sequences downstream of -73 are sufficient for FNR-dependent induction of activity by anaerobic growth conditions. However, nucleotide sequences between -87 and -149 are essential for further induction by nitrite in the growth medium. The nucleotide sequence at the galP1 CRP binding site located from -31 to -52 displays some similarities with the same region at the nirB promoter. When the galP1 sequence from -30 to -54 was replaced by the corresponding nirB sequence, expression from galP1 became inducible by FNR under anaerobic growth conditions.
Mol Microbiol 1988 Jul
PMID:The nirB promoter of Escherichia coli: location of nucleotide sequences essential for regulation by oxygen, the FNR protein and nitrite. 284 27

The mechanism by which the cyclic AMP receptor protein, CRP, stimulates transcription of the Escherichia coli araBAD promoter was studied in vitro. Under one set of conditions, CRP stimulated by eightfold the rate of RNA polymerase open complex formation on supercoiled DNA template containing the normal wild-type araBAD regulatory region. Since previous studies in vivo had identified an upstream site termed araO2 that is involved in both repression and in the CRP requirement for PBAD induction, we performed similar experiments in vitro. Deletion of araO2 or alterations of its orientation with respect to the araI site by half integral numbers of turns greatly reduced the CRP requirement for induction of PBAD. Linearizing the DNA has the same effect as deleting araO2 from the supercoiled DNA template. The similarity of conditions that relieve the classical repression of PBAD in vivo and the conditions that eliminate the requirement for CRP for maximal activity in vitro suggest a close relationship between repression in the ara system and the role of CRP. At lower concentrations of AraC protein and slightly different conditions than those used in the above-mentioned experiments, CRP does stimulate transcription from linear or supercoiled templates lacking araO2. On linear DNA under these conditions, one dimer of AraC protein binds to linear araPBAD DNA, but is incapable of stimulating transcription without the additional binding of CRP. The responses of the ara system under the second set of conditions are unlike its behavior in vivo.
J Mol Biol 1986 Apr 05
PMID:Transcription of Escherichia coli ara in vitro. The cyclic AMP receptor protein requirement for PBAD induction that depends on the presence and orientation of the araO2 site. 301 84

It was found that CRP-cAMP-recognized sequences in DNA being suggested as GTGN7-11CAC (with variability both in domain's structures and in spacer's length) are located non-randomly in promoters. In CRP-cAMP-stimulated promoters they lie upstream the "-35" box and are separated from it by a whole number of DNA turns, whereas in CRP-cAMP-repressed ones they are located downstream "-35" in a half-whole-turn-number distance. Several CRP-, SOS- and NR1-sites in the phi X174 DNA sequence were found and a few new promoters were deduced from it. PCRP1 lies within gene F and has both CRR and ntrC sites and one SOS-operator, PCRP3 (in gene A) has a CRP site which overlaps with the SOS-operator, PA and PCRP2 (in gene G) have sCRP and PD has a stringent discriminator. Four promotors, PCRP1, PCRP2, PA and PB are cloned in the pBR322 plasmid. For cloned PCRP1 the activation by exogenous cAMP and the SOS-induction by the mitomycin C were observed in vivo in pVYB215-containing cells by increasing the levels of beta-lactamase up to 27-fold. The new gene L of the phi X174 is deduced from the DNA sequence. It has two start points, overlaps the gene F inside it and codes for peptides 23 or 19 amino acids in length. These lethal peptides have strong homology in sequence to the cellular protein sulA(sfiA) of E. coli, and L* can cause observed filamentation and death of pVYB215- bearing cells after PCRP1 induction. In the A and A* protein sequences two domains "helix-turn-helix" were found that are homologous to those in CRP and repressors; this makes possible the competition between A* and CRT for its DNA sites that also have some homology. The model of the phi X174 infection cycle control and mechanisms of DNA recognition by CRP-CAMP are discussed. PCRP1 is the first promotor controlled by both three global regulons of E. coli cell.
Mol Biol (Mosk)
PMID:[Minor promoters of phage phi X174 are controlled by CRP-cAMP, lexA, glnG and several other common common regulatory systems of the host cell]. 303 74


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