Functional roles of the two cyclic AMP-dependent forms of cyclic AMP receptor protein from Escherichia coli.
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The cyclic AMP receptor protein activates transcription in Escherichia coli, only when complexed with cyclic AMP. The cyclic AMP receptor protein-cyclic AMP complex formed at low concentrations of cyclic AMP has a different conformation from either cyclic AMP receptor protein alone or its complex with cyclic AMP formed at high cyclic AMP concentrations. Various biophysical data suggest that the latter complex resembles free cyclic AMP receptor protein. We have examined the conformational and biological properties of cyclic AMP receptor protein as a function of cyclic AMP concentrations, using the gal operon of E. coli. A biphasic behavior is observed. It is shown that only the complex formed at lower concentrations of cyclic AMP is the transcriptionally active form. This difference between the complexes at different levels of cyclic AMP arises from a decreased ability of the cyclic AMP receptor protein-cyclic AMP complex at high cyclic AMP concentrations to bind to DNA at specific sites. (+info)
Erwinia carotovora has two KdgR-like proteins belonging to the IciR family of transcriptional regulators: identification and characterization of the RexZ activator and the KdgR repressor of pathogenesis.
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A novel Erwinia carotovora subsp. carotovora mutant designated RexZ, (regulator of exoenzymes) showed reduced production of the degradative exoenzymes. The rexZ gene product shows similarity of the KdgR regulatory protein from Erwinia chrysanthemi, described as the major repressor of the pectin catabolism pathway genes in the latter species. In vitro DNA-protein interaction experiments demonstrated that the synthesis of the RexZ protein is controlled by the cAMP-CRP (cAMP-receptor protein) complex. Western blot analysis also revealed the presence of a second KdgR homologue (distinct from RexZ) which, like RexZ, was present in all species of the genus Erwinia tested. The corresponding KdgR proteins from both E. carotovora subsp. carotovora and E. carotovora subsp. atroseptica share a high level of sequence identity with the KdgR homologues from E. chrysanthemi and Escherichia coli. Although the E. carotovora subsp. carotovora rexZ regulatory region displayed specific interactions with both the purified E. chrysanthemi KdgR repressor and the partially purified E. carotovora subsp. carotovora KdgR, in vivo quantification revealed that the cellular level of RexZ protein was unaffected by the presence of pectic compounds. This study shows that the complex regulatory network governing virulence in the erwinias involves two totally distinct, but highly conserved, members of the IcIR class of DNA binding proteins: RexZ and KdgR. (+info)
Attenuation and immunogenicity of Deltacya Deltacrp derivatives of Salmonella choleraesuis in pigs.
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Six different isogenic Deltacya Deltacrp derivatives of a strain of Salmonella choleraesuis var. kunzendorf-chi3246 virulent for pigs were constructed by transposon-mediated deletion mutagenesis. These strains were evaluated for virulence and ability to elicit a protective immune response in young weaned pigs after oral administration and were compared to a commercially available vaccine which lacks the 50-kb virulence plasmid (vpl(-)). These derivatives were Deltacya Deltacrp vpl(+), Deltacya Deltacrp vpl(-), Deltacya Delta(crp-cdt) vpl(+), Deltacya Delta(crp-cdt) vpl(-), Deltacya Deltacrp pmi-3834 vpl(+), and Deltacya Delta(crp-cdt) pmi-3834. In experiments to evaluate safety, no significant adverse effects of any of the vaccine constructs were observed, except that two of the strains which carried the virulence plasmid (vpl(+)) caused a small, short-term elevation in maximum temperature compared to pretreatment temperature values. Orally immunized animals, except for those vaccinated with the Deltacya Deltacrp pmi-3834 vpl(+) strain or SC-54, developed significant serum antibody responses 21 days postvaccination as measured by enzyme-linked immunosorbent assay. No cell-mediated immune responses to heat-killed S. choleraesuis were noted at the same time point as measured with heat-killed bacteria as antigen in a lymphocyte proliferation assay. In an oral challenge exposure model with a highly virulent heterologous strain of S. choleraesuis, the Deltacya Deltacrp strains with deletions in pmi were not protective. As measured by morbidity scores, the responses to challenge of the pigs vaccinated with the other four Deltacya Deltacrp derivatives were significantly better than those of the nonvaccinated, challenged group. With the exception of temperature elevation and slight differences in diarrhea scores postchallenge, none of these strains differed significantly from each other in the other clinical parameters analyzed. While the commercial vaccine was protective by most of the parameters measured, it was not fully protective against challenge with virulent S. choleraesuis as judged by diarrhea scores and temperature elevation. Collectively, these data demonstrate that Deltacya Deltacrp derivatives, with or without the virulence plasmid but not with deletions in the pmi gene, are candidates for vaccines for protection against salmonellosis in pigs. (+info)
Identifying DNA and protein patterns with statistically significant alignments of multiple sequences.
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MOTIVATION: Molecular biologists frequently can obtain interesting insight by aligning a set of related DNA, RNA or protein sequences. Such alignments can be used to determine either evolutionary or functional relationships. Our interest is in identifying functional relationships. Unless the sequences are very similar, it is necessary to have a specific strategy for measuring-or scoring-the relatedness of the aligned sequences. If the alignment is not known, one can be determined by finding an alignment that optimizes the scoring scheme. RESULTS: We describe four components to our approach for determining alignments of multiple sequences. First, we review a log-likelihood scoring scheme we call information content. Second, we describe two methods for estimating the P value of an individual information content score: (i) a method that combines a technique from large-deviation statistics with numerical calculations; (ii) a method that is exclusively numerical. Third, we describe how we count the number of possible alignments given the overall amount of sequence data. This count is multiplied by the P value to determine the expected frequency of an information content score and, thus, the statistical significance of the corresponding alignment. Statistical significance can be used to compare alignments having differing widths and containing differing numbers of sequences. Fourth, we describe a greedy algorithm for determining alignments of functionally related sequences. Finally, we test the accuracy of our P value calculations, and give an example of using our algorithm to identify binding sites for the Escherichia coli CRP protein. AVAILABILITY: Programs were developed under the UNIX operating system and are available by anonymous ftp from ftp://beagle.colorado.edu/pub/consensus. (+info)
Regulation of pelD and pelE, encoding major alkaline pectate lyases in Erwinia chrysanthemi: involvement of the main transcriptional factors.
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The main virulence factors of the phytopathogenic bacterium Erwinia chrysanthemi are pectinases which attack pectin, the major constituent of the plant cell wall. Of these enzymes, the alkaline isoenzyme named PelD in strain 3937 and PelE in strain EC16 has been described as being particularly important, based on virulence studies of plants. Expression of the pelD and pelE genes is tightly modulated by various regulators, including the KdgR repressor and the cyclic AMP-cyclic AMP receptor protein (CRP) activator complex. The use of a lacZ reporter gene allowed us to quantify the repression of E. chrysanthemi 3937 pelD expression exerted by PecS, another repressor of pectinase synthesis. In vitro DNA-protein interaction experiments, centered on the pelD and pelE wild-type or pelE mutated promoter regions, allowed us to define precisely the sequences involved in the binding of these three regulators and of RNA polymerase (RNAP). These studies revealed an unusual binding of the KdgR repressor and suggested the presence of a UP (upstream) element in the pelD and pelE genes. Investigation of the simultaneous binding of CRP, KdgR, PecS, and the RNAP to the regulatory region of the pelD and pelE genes showed that (i) CRP and RNAP bind cooperatively, (ii) PecS partially inhibits binding of the CRP activator and of the CRP-RNAP complex, and (iii) KdgR stabilizes the binding of PecS and prevents transcriptional initiation by RNAP. Taken together, our data suggest that PecS attenuates pelD and pelE expression rather than acting as a true repressor like KdgR. Overall, control of the pelD and pelE genes of E. chrysanthemi appears to be both complex and novel. (+info)
RNA polymerase alpha and sigma(70) subunits participate in transcription of the Escherichia coli uhpT promoter.
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Fundamental questions in bacterial gene regulation concern how multiple regulatory proteins interact with the transcription apparatus at a single promoter and what are the roles of protein contacts with RNA polymerase and changes in DNA conformation. Transcription of the Escherichia coli uhpT gene, encoding the inducible sugar phosphate transporter, is dependent on the response regulator UhpA and is stimulated by the cyclic AMP receptor protein (CAP). UhpA binds to multiple sites in the uhpT promoter between positions -80 and -32 upstream of the transcription start site, and CAP binds to a single site centered at position -103.5. The role in uhpT transcription of portions of RNA polymerase Esigma(70) holoenzyme which affect regulation at other promoters was examined by using series of alanine substitutions throughout the C-terminal domains of RpoA (residues 255 to 329) and of RpoD (residues 570 to 613). Alanine substitutions that affected in vivo expression of a uhpT-lacZ transcriptional fusion were tested for their effect on in vitro transcription activity by using reconstituted holoenzymes. Consistent with the binding of UhpA near the -35 region, residues K593 and K599 in the C-terminal region of RpoD were necessary for efficient uhpT expression in response to UhpA alone. Their requirement was overcome when CAP was also present. In addition, residues R265, G296, and S299 in the DNA-binding surface of the C-terminal domain of RpoA (alphaCTD) were important for uhpT transcription even in the presence of CAP. Substitutions at several other positions had effects in cells but not during in vitro transcription with saturating levels of the transcription factors. Two DNase-hypersensitive sites near the upstream end of the UhpA-binding region were seen in the presence of all three transcription factors. Their appearance required functional alphaCTD but not the presence of upstream DNA. These results suggest that both transcription activators depend on or interact with different subunits of RNA polymerase, although their role in formation of proper DNA geometry may also be crucial. (+info)
Transcription regulation of the colicin K cka gene reveals induction of colicin synthesis by differential responses to environmental signals.
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Colicin-producing strains occur frequently in natural populations of Escherichia coli, and colicinogenicity seems to provide a competitive advantage in the natural habitat. A cka-lacZ fusion was used to study the regulation of expression of the colicin K structural gene. Expression is growth phase dependent, with high activity in the late stationary phase. Nutrient depletion induces the expression of cka due to an increase in ppGpp. Temperature is a strong signal for cka expression, since only basal-level activity was detected at 22 degrees C. Mitomycin C induction demonstrates that cka expression is regulated to a lesser extent by the SOS response independently of ppGpp. Increased osmolarity induces a partial increase, while the global regulator integration host factor inhibits expression in the late stationary phase. Induction of cka was demonstrated to be independent of the cyclic AMP-Crp complex, carbon source, RpoS, Lrp, H-NS, pH, and short-chain fatty acids. In contrast to colicin E1, cka expression is independent of catabolite repression and is partially affected by anaerobiosis only upon SOS induction. These results indicate that while different colicins are expressed in response to some common signals such as nutrient depletion, the expression of individual colicins could be further influenced by specific environmental cues. (+info)
Transcriptional regulation of tyrosine phenol-lyase gene mediated through TyrR and cAMP receptor protein.
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Using a lac reporter system in Escherichia coli, we showed that the expression of E. herbicola tpl was regulated through TyrR and cAMP receptor protein. Three TyrR boxes upstream of tpl were essential for full expression. The results suggested that the tyrosine-mediated TyrR hexamerization was an important process. The DNA bending between two TyrR boxes, which is triggered by the binding of cAMP receptor protein, may facilitate the conformational change of TyrRs. (+info)