Characterization of the pecT control region from Erwinia chrysanthemi 3937

Castillo, Arnaud; Reverchon, Sylvie

doi:10.1128/jb.179.15.4909-4918.1997

Cited by 32 publications

(29 citation statements)

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“…Analysis of the distribution of these different regulators in bacteria of the genus Erwinia has revealed the presence of pecT/hexA (Castillo & Reverchon, 1997;Harris et al, 1998), expllcarl Reverchon et al, 1998;Jones et al, 1993;Pirhonen et al, 1993), and rexZ and kdgR homologues (this work) in both E. chrysantherni and E. carotovora. However, in vivo comparative studies for many of these proteins, such as PecT/HexA and proteins encoded by the quorum-sensing locus, suggest that the mechanism by which they are involved in pel gene expression is different in these two Erwinia species Reverchon et al, 1998 ;Harris et al, 1998).…”

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

“…In addition to kdgR, two other loci that negatively regulate the expression of the pectinase genes, pecS-pecM and pecT, have also been characterized in E. chrysanthemi. However, the signal to which they respond remains unknown Praillet et al, 1994;Surgey at al., 1996;Castillo & Reverchon, 1997).In the related soft-rot species, Erwinia carotovora subsp. caiotovoru, analysis of regulatory mutants has allowed the identification of several loci involved in the regulation of exoenzyme genes : expl/carI /hsll, hor, aepA, aepH (rsmB), rsmA and hexA.…”

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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

et al. 1999

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A novel Erwinia carotovora subsp. carotovora mutant designated RexZ, begulator of Eoenzymes) showed reduced production of the degradative exoenzymes. The mxZ gene product shows similarity to the KdgR regulatory protein from fmvinia 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 Rex2 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 Em carotovora subsp. carotovora and E carotovora subsp. afroseptica share a high level of sequence identity with the KdgR homologues from E. chrysantherni 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 cetlular levet of Rex2 protein was unaffected by the presence of pectic compounds. This study shows that the complex regulatory network governing virulence in the erwinias involves two total ty distinct, but highly conserved, members of the IclR class of DNA binding proteins: RexZ and KdgR. INTRODUCTIONThe phytopathogenicity of several Erwinia species is correlated with the ability to produce and secrete plant cell wall degrading enzymes such as pectinases, cellulases (Cel) and proteases (Prt) (Collmer & Keen, 1986;Barras et al., 1994). The crucial role of these enzymes, particularly the pectate lyases (Pel), in the Abbreviations: CRP, cyclic AMP receptor protein; KDG, 2-keto-3-deoxygluconate; OHHL, N-(3-oxohexanoyt)-~-homoserine lactone; PGA, polygalacturonate.The GenBank accession numbers for the sequences reported in this paper are given in the text.virulence of soft-rot Erwinia has been confirmed by the isolation of mutants exhibiting reduced virulence that are defective for production or secretion of these enzymes (Boccara et al., 1988;Hinton et al., 1989; Pirhonen st al., 1991). Exoenzyme production by softrot Erwinia species responds to several environmental conditions (Hugouvieux-Cotte-Pattat et af., 1996) ; presence of pectin-degradative products or plant extract, anaerobiosis, temperature, nitrogen starvation, osmolarity, catabolite repression, iron availability and growth phase.In Erwinia chrysanthemi 3937, attention has been focused on the pectin degradation pathway, and the different steps of this metabolic pathway have been characterized. The degradation of the pectic compounds is initiated by extracellular pectinases, including two pectin methylesterases (encoded by pernA and pemB) (Laurent et al., 1993;Shevchik et al., 1996), five major isoenzymes of pectate lyases (encoded by pelA, pel& pelC, pelD and pelE) and a set of secondary pectate lyases which generate u...

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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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

et al. 1999

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“…In E. chrysanthemi, it has been demonstrated that the full expression of the pectin catabolism genes requires the presence of the cAMP-CRP complex Reverchon et al, 1997) and that the KdgR repressor essentially mediates the induction of these catabolic pathway genes by pectic compounds (Reverchon et al, 1991;Nasser et al, 1994). In addition to kdgR, two other loci involved in negative regulation of the pectinase gene expression, pecS-pecM and pecT, were also characterized in E. chrysanthemi, but the signal to which they respond still remains unknown (Praillet et al, 1996;Reverchon et al, 1994;Surgey et al, 1996;Castillo and Reverchon, 1997).…”

Section: Introductionmentioning

confidence: 99%

Characterization of the Erwinia chrysanthemi expI–expR locus directing the synthesis of two N‐acyl‐homoserine lactone signal molecules

Nasser

Bouillant

Salmond

et al. 1998

Molecular Microbiology

168

120

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SummaryThe plant pathogen Erwinia chrysanthemi produces three acyl-homoserine lactones (acyl-HSLs). One has been identified as N-(3-oxohexanoyl)-homoserine lactone (OHHL), and the two others were supposed to be N-(hexanoyl)-homoserine lactone (HHL) and N-(decanoyl)-homoserine lactone (DHL). The genes for a quorum-sensing signal generator (expI ) and a response regulator (expR ) were cloned. These genes are convergently transcribed and display high similarity to the expI-expR genes of Erwinia carotovora. ExpI is responsible for both OHHL and HHL production. Inactivation of expI had little effect on pectinase synthesis in E. chrysanthemi, as expression of only two of the pectate lyase genes, pelA and pelB, was decreased. E. chrysanthemi expR mutants still produced acyl-HSL and pectinases. However, gel shift and DNAse I footprinting experiments showed that the purified E. chrysanthemi ExpR protein binds specifically to the promoter regions of the five major pel genes. Addition of OHHL modified the ExpR-DNA bandshift profiles, indicating that ExpR interacts with OHHL and binds to DNA in different ways, depending on the OHHL concentration. Localization of the ExpR binding sites just upstream of promoter regions suggests that ExpR functions as an activator of pel expression in the presence of OHHL. The absence of a phenotype in expR mutants strongly suggests that at least an additional interchangeable ExpR homologue exists in E. chrysanthemi. Finally, transcription of expI ::uidA and expR ::uidA fusions is dependent on the population density, suggesting the existence of a quorum-sensing hierarchy in E. chrysanthemi. These results suggest that the expI-expR locus is part of a complex autoregulatory system that controls quorum sensing in E. chrysanthemi.

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“…Very few mutants with decreased pectinase production were obtained in E. chrysanthemi. Only the crp and pec-1 mutants are deficient in pectinase synthesis Castillo and Reverchon, 1997). While CRP, the global regulator of sugar catabolism, acts by a direct mechanism involving specific interactions with pel gene regulatory regions , the effect of the pec-1 mutation is indirect and results in an increased production of the PecT repressor (Castillo and Reverchon, 1997).…”

Section: Introductionmentioning

confidence: 99%

Integration of the quorum‐sensing system in the regulatory networks controlling virulence factor synthesis in Erwinia chrysanthemi

Reverchon¹,

Bouillant

Salmond

et al. 1998

Molecular Microbiology

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SummaryThe expI-expR locus drives a quorum-sensing system in the phytopathogenic bacterium, Erwinia chrysanthemi. Purified ExpR, an N-acyl homoserine lactoneresponsive regulatory protein, binds to the promoter/ operator region of the expI and expR genes. DNase I footprinting experiments showed that ExpR protects the regions between ¹66 and ¹40 from the P1 transcription initiation site of expI and between ¹54 and ¹18 from the expR transcription initiation site P1. The protected region overlaps the two expR promoters, P1 and P2, suggesting that ExpR exerts a negative control on its own gene expression. This assertion is reinforced by the fact that the addition of OHHL dissociates the ExpR-expR DNA complex. In contrast, the location of the ExpR binding site on the expI gene suggests an activator function, as reported for the pel genes. Moreover, ExpR is able to induce DNA bending. In vivo and in vitro studies revealed that CRP functions as an activator of expR expression, but as a repressor of expI transcription. A second level of control of expR and expI occurs through the PecS repressor, a regulator of pectinase synthesis. PecS represses expI expression, while ExpR activates pecS transcription, suggesting the existence of a mutual control between pecS and the expI -expR system in E. chrysanthemi. Regulation of pectinase synthesis in soft rot Erwinia appears to be a complex network of multiple cross-acting regulatory elements. A model that integrates these regulatory elements is proposed.

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Characterization of the pecT control region from Erwinia chrysanthemi 3937

Cited by 32 publications

References 46 publications

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

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

Characterization of the Erwinia chrysanthemi expI–expR locus directing the synthesis of two N‐acyl‐homoserine lactone signal molecules

Integration of the quorum‐sensing system in the regulatory networks controlling virulence factor synthesis in Erwinia chrysanthemi

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