Complementation of deletion mutations in a cloned functional cluster of Erwinia chrysanthemi out genes with Erwinia carotovora out homologues reveals OutC and OutD as candidate gatekeepers of species-specific secretion of proteins via the type II pathway

The type II or Sec-dependent secretion system is used by diverse Gram-negative bacteria for secretion of extracellular proteins. Of the 12–15 proteins involved in secretion, the requirement for many has not been demonstrated and little is known about their functions in the secretion process. The plant pathogens Erwinia chrysanthemi and Erwinia carotovora secrete extracellular pectate lyases (Pels) using the type II or Out pathway. However, these two bacteria cannot secrete Pels encoded by heterologously expressed genes from the other species, suggesting the presence of species-specific recognition factors in the Out systems of the two Erwinia species. We previously reported the isolation of a cosmid clone, pCPP2006, from E. chrysanthemi EC16, which enables Escherichia coli to secrete heterologously expressed E. chrysanthemi Pels. Sequencing in a region required for secretion revealed the presence of 12 genes, outC-M and outO. We report here the construction of functionally non-polar mutations in each gene in the outC-M operon and outS and outB using a polA^ts strain of E. coli to facilitate homologous recombination between out genes carrying deletions and their wild-type copies on pCPP2006. By testing for complementation of each deletion with wild-type out genes from E. chrysanthemi EC16 and E. carotovora SCRI193 we have demonstrated that: (i) each out gene is required for secretion of E. chrysanthemi PelE from E. coli with the exception of outH; (ii) each mutation can be complemented by its homologue from E. carotovora, except for outC and outD; (iii) outC and outD from E. carotovora do not confer secretion of Pel1 on the E. chrysanthemi Out system; and (iv) Pel1 secretion can be conferred on the E. chrysanthemi Out system by the presence of outC-M, S and B from E. carotovora. The data suggest that OutC and OutD are gatekeepers of the Out system involved in recognition of Pels targeted for secretion but that OutC and OutD from E. carotovora cannot be successfully assembled into the E. chrysanthemi Out system.     

Derivation of Mutants of Erwinia carotovora subsp. betavasculorum Deficient in Export of Pectolytic Enzymes with Potential for Biological Control of Potato Soft Rot

Erwinia carotovora subsp. betavasculorum Ecb168 produces an antibiotic(s) that suppresses growth of the related bacterium Erwinia carotovora subsp. carotovora in culture and in wounds of potato tubers. Strain Ecb168 also produces and secretes pectolytic enzymes and causes a vascular necrosis and root rot of sugar beet. Genes (out) involved in secretion of pectolytic enzymes by Ecb168 were localized to two HindIII fragments (8.5 and 10.5 kb) of Ecb168 genomic DNA by hybridization to the cloned out region of E. carotovora subsp. carotovora and by complementation of Out^- mutants of E. carotovora subsp. carotovora. Out^- mutants of Ecb168, which did not secrete pectate lyase into the culture medium, were obtained when deletions internal to either HindIII fragment were introduced into the genome of Ecb168 through marker exchange mutagenesis. Out^- mutants of Ecb168 were complemented to the Out⁺ phenotype by introduction of the corresponding cloned HindIII fragment. Out^- mutants of Ecb168 were less virulent than the Out⁺ parental strain on potato tubers. Strain Ecb168 and Out^- derivatives inhibited the growth of E. carotovora subsp. carotovora in culture, indicating that the uncharacterized antibiotic(s) responsible for antagonism was exported through an out-independent mechanism. Strain Ecb168 and Out^- derivatives reduced the establishment of large populations of E. carotovora subsp. carotovora in wounds of potato tubers and suppressed tuber soft rot caused by E. carotovora subsp. carotovora.     

External Loops at the C Terminus of Erwinia chrysanthemi Pectate Lyase C Are Required for Species-Specific Secretion through the Out Type II Pathway

The type II secretion system (main terminal branch of the general secretion pathway) is used by diverse gram-negative bacteria to secrete extracellular proteins. Proteins secreted by this pathway are synthesized with an N-terminal signal peptide which is removed upon translocation across the inner membrane, but the signals which target the mature proteins for secretion across the outer membrane are unknown. The plant pathogens Erwinia chrysanthemi and Erwinia carotovora secrete several isozymes of pectate lyase (Pel) by the out-encoded type II pathway. However, these two bacteria cannot secrete Pels encoded by heterologously expressed pel genes from the other species, suggesting the existence of species-specific secretion signals within these proteins. The functional cluster of E. chrysanthemi out genes carried on cosmid pCPP2006 enables Escherichia coli to secrete E. chrysanthemi, but not E. carotovora, Pels. We exploited the high sequence similarity between E. chrysanthemi PelC and E. carotovora Pel1 to construct 15 hybrid proteins in which different regions of PelC were replaced with homologous sequences from Pel1. The differential secretion of these hybrid proteins by E. coli(pCPP2006) revealed M118 to D175 and V215 to C329 as regions required for species-specific secretion of PelC. We propose that the primary targeting signal is contained within the external loops formed by G274 to C329 but is dependent on residues in M118 to D170 and V215 to G274 for proper positioning.     

Behavior of bacteriophage P1 inErwinia carotovora subsp.carotovora

Bacteriophage P1KMclr100 was tranferred toErwinia carotovora subsp.carotovora. P1 was stably maintained as detected by hybridization and transfer of kanamycin resistance. Lysogens ofE. carotovora failed to produce any viable P1 phage. Although total DNA from P1 lysogens ofE. carotovora hybridized to³²P-labeled P1 probe, we were not able to detect P1 DNA as an extrachromosomal element. Attempts to use bacteriophage P1 as a vector for transposon Tn5 insertion mutagenesis inE. carotovora were not successful. Our results indicate that lytic replication of P1 DNA does not occur in P1 lysogens ofE. carotovora and that P1 DNA is probably integrated into the bacterial chromosome.Journal paper 10085 from the Purdue Agricultural Experiment Research Station.     

Use of TnphoA to enrich for extracellular enzyme mutants of Erwinia carotovora subspecies carotovora

Soft rot Erwinia species secrete a range of enzymes into the extracellular environment. Therefore, the genetically amenable Erwinia system is a useful model for the study of protein secretion by Gram-negative bacteria. We have used a λ-sensitive derivative of Erwinia carotovora subspecies carotovora (Ecc) and the transposon TnphoA, to isolate a range of extracellular enzyme mutants. The use of TnphoA provides an enrichment for extracellular enzyme mutants over other transposon-based systems. In these mutants, the alkaline phosphatase activity of the hybrid protein Is found in the periplasm, and is under the control of the Ecc promoters. Three TnphoA-induced extracellular enzyme mutants were studied in detail. One proved to be an enzyme structural gene mutant, whilst the other two appeared to be secretory mutants.     

Resolution of four pectate lyase structural genes of Erwinia chrysanthemi (EC16) and characterization of the enzymes produced in Escherichia coli

Summary Erwinia chrysanthemi (EC16) produces four extracellular pectate lyases (Pels) that are resolved by their isoelectric pH (pI): Pel A, pI 4.2; Pel B, pI 8.8; Pel C, pI 9.0; and Pel E, pI 10.0. To investigate the organization of the pel genes and to compare the properties of the enzymes, the cognate structural genes were isolated from an EC16 cosmid library. Physical analysis of the Pel⁺ plasmids revealed that pelA and pelE were present on a 8.2 kb DNA segment, while pelB and pelC were present on a 5.9 kb DNA segment. These four pel genes were resolved by subcloning or Tn5 mutagenesis. The properties of each Pel, obtained from the Escherichia coli periplasm, were determined. The pIs of the enzymes were identical to those of the EC16 extracellular enzymes. While each Pel was of the endo-type, differences among them were noted in the quantities of the various reaction products. Pel E was found to be most effective in causing maceration and inducing electrolyte loss and cell death in potato tuber tissue, followed by Pel B and Pel C. In contrast to these basic Pels, the acidic enzyme, Pel A, did not macerate plant tissue or induce electrolyte loss and cell death. These findings are discussed in the context of the plant pathogenicity of E. chrysanthemi.     

Characterization of transposon insertion out- mutants of Erwinia carotovora subsp. carotovora defective in enzyme export and of a DNA segment that complements out mutations in E. carotovora subsp. carotovora, E. carotovora subsp. atroseptica, and Erwinia chrysanthemi.

Soft-rotting Erwinia spp. export degradative enzymes to the cell exterior (Out+), a process contributing to their ability to macerate plant tissues. Transposon (Tn5, Tn10, Tn10-lacZ) insertion Out- mutants were obtained in Erwinia carotovora subsp. carotovora 71 by using plasmid and bacteriophage lambda delivery systems. In these mutants, pectate lyases, polygalacturonase, and cellulase, which are normally excreted into the growth medium, accumulated in the periplasm. However, localization of the extracellular protease was not affected. The Out- mutants were impaired in their ability to macerate potato tuber tissue. Out+ clones were identified in a cosmid library of E. carotovora subsp. carotovora 71 by their ability to complement mutants. Localization of cyclic phosphodiesterase in the periplasm indicated that the Out+ plasmids did not cause lysis or a nonspecific protein release. The Out+ derivatives of the E. carotovora subsp. carotovora 71 mutants regained the ability to macerate potato tuber tissue. Our data indicate that a cluster of several genes is required for the Out+ phenotype. While one plasmid, pAKC260, restored the Out+ phenotype in each of the 31 mutants of E. carotovora subsp. carotovora, E. carotovora subsp. atroseptica, and Erwinia chrysanthemi, it failed to render Escherichia coli export proficient. Homologs of E. carotovora subsp. carotovora 71 out DNA were detected by Southern hybridizations in subspecies of E. carotovora under high-stringency conditions. In contrast, E. chrysanthemi sequences bearing homology to the E. carotovora subsp. carotovora 71 out DNA were detectable only under low-stringency hybridization. Thus, although the out genes are functional in these two soft-rotting bacterial groups, the genes appear to have diverged.     

Erwinia pel gene homology survey in selected bacteria

A 2.1 kb Bam H1 DNA fragment encoding a pectate lyase (PL) enzyme was isolated from an Erwinia carotovora subsp. atroseptica (Eca) cosmid library. The fragment was labeled with ³²P-CTP and hybridized to total DNA digests from selected bacteria which included plant-invasive as well as plant associative organisms. The pel gene probe hybridized to E. carotovora subsp. carotovora (Ecc) DNA under all conditions tested. Hybridization to DNAs from Agrobacterium tumefaciens and Pseudomonas marginalis was observed at low stringency conditions (45°C). No hybridization was observed between the pel gene probe and six other DNA samples.     

Conditional mutations in OutE and OutL block exoenzyme secretion across the Erwinia carotovora outer membrane

The phytopathogen Erwinia carotovora subspecies carotovora secretes pectinases and cellulase via the general secretory pathway, a process requiring at least 13 proteins encoded by the out gene cluster. By exploiting λ::Tn5, a generalised transducing phage (φKP) and localised mutagenesis of the out gene cluster, we have produced a histidine auxotroph and 19 new secretory mutants, including two (HJN1003 and HJN1004) which were conditional (temperature sensitive) for secretion. All of the mutants accumulated pectinases and cellulase in the periplasm, but in the case of HJN1003 and HJN1004, only at the restrictive temperature. HJN1003 and HJN1004 were complemented by the outE and outL wild-type genes, respectively, and both mutant alleles were cloned and sequenced to reveal single missense substitutions. HJN1003 carries an Arg¹⁶⁶ to His alteration in OutE and HJN1004 carries a Pro¹⁵⁹ to Leu alteration in OutL. Topology mapping of OutL using a β-lactamase probe confirmed that OutL is a type II bitopic trans-inner membrane protein and that the mutated Pro¹⁵⁹ residue in HJN1004 is located in the cytoplasmic domain of OutL. Hence, the secretion of exoenzymes across the outer membrane is critically dependent on the conformation of secretory components located at the cytoplasmic face of the inner membrane.     

Isolation and Preliminary Characterization of Cryptic Plasmids from Erwinia carotovora

Of the fifty-two Erwinia carotovorastrains studied, sixteen were found to contain extrachromosomal DNA (plasmids) from 2.5 to 129 kbp in size. Some E. carotovorastrains bore two to five different plasmids. Experiments showed that the cryptic plasmids of erwinia are not responsible for their resistance to antibiotics and are not involved in the synthesis of macromolecular colicin-like carotovoricins. At the same time, one of the E. carotovorastrains, 13A, augmented the production of carotovoricin after curing from one of its plasmids, the 47.7-kbp pCA 6-2. Three E. carotovorasubsp.carotovorastrains and one E. carotovorasubsp.atrosepticastrain contained large 129-kbp plasmids, which may play a role in the ecology of phytopathogenic pectinolytic erwinia.     

A pleiotropic reduced virulence (Rvi−) mutant of Erwinia carotovora subspecies atroseptica is defective in flagella assembly proteins that are conserved in plant and animal bacterial pathogens

Erwinia carotovora subsp. atroseptica was mutage-nized and assayed for virulence in planta. Those mutants which exhibited reduced virulence (Rvi^-) were assayed for growth rate, auxotrophy and extracellular enzyme secretion and seven mutants were found to be wild type for all of these phenotypes. When screened for other phenotypes, two were found to be non-motile. One mutant was complemented for motility by a heterologous gene library. A 2.7kb XmaIII-Clal complementing fragment was sequenced and the gene products were found to have similarity to flagella biosynthesis gene products from several bacteria. Further similarity was found to a pathogenicity protein from the plant pathogen Xanthomonas campestris pv. glycines and to the Spa pathogenicity proteins of the human pathogen Shigella fiexneri, which are involved in the surface presentation of antigens. These studies highlight the emergence of common themes in the molecular strategies employed by both plant and animal bacterial pathogens for the targeting of proteins involved in the elaboration of disease.     

DNA sequence analysis of the recA genes from Proteus vulgaris, Erwinia carotovora, Shigella flexneri and Escherichia coli B/r

Summary The complete nucleotide sequences of therecA genes fromEscherichia coli B/r,Shigella flexneri, Erwinia carotovora andProteus vulgaris were determined. The DNA sequence of the coding region of theE. coli B/r gene contained a single nucleotide change compared with theE. coli K12 gene sequence whereas theS. flexneri gene differed at 7 residues. In both cases, the predicted proteins were identical in primary structure to theE. coli K12 RecA protein. The DNA sequences of the recA genes fromE. carotovora andP. vulgaris were 80% and 74% homologous, respectively, to theE. coli K12 gene. The predicted amino acid sequences of theE. carotovora andP. vulgaris RecA proteins were 91% and 85% identical respectively, to that ofE. coli K12. The RecA proteins from bothP. vulgaris andE. carotovora diverged significantly in sequence in the last 50 residues whereas they showed striking conservation throughout the first 300 amino acids which include an ATP-binding region and a subunit interaction domain. A putative LexA repressor binding site was localized upstream of each of the heterologous genes.     

Temperate Bacteriophage ZF40 of Erwinia carotovora: Phage Particle Structure and DNA Restriction Analysis

Structural organization of the temperate bacteriophage ZF40 of Erwinia carotovora was studied. Phage ZF40 proved to be a typical member of the Myoviridae family (morphotype A1). Phage particles consist of an isometric head 58.3 nm in diameter and a contractile 86.3-nm-long tail with a complex basal plate and short tail fibers (31.5 nm). Phage tail sheath, a truncated cone in shape, is characterized by specific packaging of structural subunits. The ZF40 phage genome is 45.8 kb in size, as determined by restriction analysis, and contains DNA cohesive ends. The ZF40 phage ofErwinia carotovora is assumed to be a new species of bacteriophages specific for enterobacteria.     

Estimation of Jordanian isolated Pectobacterium cellulase,pectinase concentrations,RAPD polymorphism and their maceration activity

Forty-two Pectobacterium isolates were recovered from contaminated soil and rotted vegetables in Jordan. Twenty of them were belonged to; Pectobacterium carotovorum subsp. Carotovorum (Pbc) (= Erwinia carotovora subsp. carotovora), 11 isolates were belonged to Pectobacterium atrospeticum (= Erwinia carotovora subsp. atroseptica) (Pba) and 11 isolates were not classifiable (Pbs). Maceration activity of the 42 proved their ability to macerate potato, carrot and radish slices. Maceration activity of the isolates either of the same subspecies or in between the isolates of different subspecies isolated from the same host or from different hosts was varied. The measured concentration in μM?ml^?1 of both cellulase and pectinase enzymes was variable too. The Rapid amplified polymorphic DNA-PCR finger printing of total genomic DNA using a pair of 10-mer oligonucleotide primers amplification showed similar DNA bands with some polymorphic variations amongst the isolates.     

Two Genomic Regions Involved in Catechol Siderophore Production by Erwinia carotovora

Two regions involved in catechol biosynthesis (cbs) of Erwinia carotovora W3C105 were cloned by functional complementation of Escherichia coli mutants that were deficient in the biosynthesis of the catechol siderophore enterobactin (ent). A 4.3-kb region of genomic DNA of E. carotovora complemented the entB402 mutation of E. coli. A second genomic region of 12.8 kb complemented entD, entC147, entE405, and entA403 mutations of E. coli. Although functions encoded by catechol biosynthesis genes (cbsA, cbsB, cbsC, cbsD, and cbsE) of E. carotovora were interchangeable with those encoded by corresponding enterobactin biosynthesis genes (entA, entB, entC, entD, and entE), only cbsE hybridized to its functional counterpart (entE) in E. coli. The cbsEA region of E. carotovora W3C105 hybridized to genomic DNA of 21 diverse strains of E. carotovora but did not hybridize to that of a chrysobactin-producing strain of Erwinia chrysanthemi. Strains of E. carotovora fell into nine groups on the basis of sizes of restriction fragments that hybridized to the cbsEA region, indicating that catechol biosynthesis genes were highly polymorphic among strains of E. carotovora.     

Sites of contamination and numbers of Erwinia carotovora present in stored seed potato stocks in Scotland

Forty-eight bulk and crate stored commercial seed potato stocks from the east of Scotland were examined for contamination by Erwinia carotovora in 1967 and 1968. Both E. carotovora var. carotovora and E. carotovora var. atroseptica were present, the latter, the blackleg pathogen, being detected four times more frequently. Most contamination was located on the tuber surface and in the lenticels; it was rare in the vascular ring and the organism was never detected in the cortex. The level of contamination of lenticels was only slightly affected after winter storage, which, however, substantially reduced surface contamination. More than 10³ cells were detected on the surface of tubers in over half the stocks and in half the stocks each lenticel sampled contained more than 10² bacteria.     

Phenotypic and Genetic Diversity of Erwinia carotovora ssp. carotovora Strains from Asia

A collection of 87 strains of the soft rot pathogen Erwinia carotovora ssp. carotovora (Ecc) isolated from various host plants in Japan, Korea and Thailand was characterized by bacteriological, pathological and genetic properties. On the basis of pathogenicity on the potato, tomato, onion and cucumber, strains were divided into four groups. They were also characterized by PCR‐restriction fragment length polymorphisms (RFLP) of 16S ribosomal DNA (rDNA), 16S‐23S rDNA intergenic spacer regions (ISRs) and a pel gene encoding pectate lyase. By analysis of 16S rDNA RFLP generated by Hinf I, Ecc strains were differentiated into two groups where it was discovered that most strains from Korea and Japan belonged to the same group. In the analysis of ISRs RFLP with MboI, two patterns were found. All Thai strains showed the same pattern. In the analysis of the pel gene RFLP with Sau3AI, all strains were separated into two independent patterns except for one strain. The strain (MAFF 301937) isolated from the mulberry showed a unique RFLP pattern of the pel gene. In cluster analysis based on 26 phenotypic characters, Ecc strains were composed of two groups, A and B. Group A contained typical Ecc strains which provided negative reactions in testing the production of reducing substances from sucrose and acids from α‐methyl glucoside. All Thai strains and most of the Korean strains belonged to group A, whereas group B contained atypical Ecc strains, which were isolated in Japan and Korea; the properties of this group were similar to those of E. carotovora ssp. atroseptica. The research reported here was undertaken to provide information on the strains of E. carotovora ssp. carotovora in Asia.     

Mutation in a gene required for lipopolysaccharide and enterobacterial common antigen biosynthesis affects virulence in the plant pathogen Erwinia carotovora subsp. atroseptica.

Spontaneous bacteriophage-resistant mutants of the phytopathogen Erwinia carotovora subsp. atroseptica (Eca) SCRI1043 were isolated and, out of 40, two were found to exhibit reduced virulence in planta. One of these mutants, A5/22, showed multiple cell surface defects including alterations in synthesis of outer membrane proteins, lipopolysaccharide (LPS), enterobacterial common antigen (ECA), and flagella. Mutant A5/22 also showed reduced synthesis of the exoenzymes pectate lyase (Pel) and cellulase (Cel), major virulence factors for this pathogen. Genetic analysis revealed the pronounced pleiotropic mutant phenotype to be due to a defect in a single gene (rffG) that, in Escherichia coli, is involved in the production of ECA. We also show that while other enteric bacteria possess duplicate homologues of this gene dedicated separately to synthesis of LPS and ECA, Eca has a single gene.     

Enzymatic Production of Ribavirin from Orotidine by Erwinia carotovora AJ 2992

Microorganisms that produce ribavirin (1-β-d-ribofuranosyl-1,2,4-triazole-3-carboxamide; virazole^®) directly from orotidine and 1,2,4-triazole-3-carboxamide (TCA) were screened from our stock cultures. Of the 425 strains, Erwinia carotovora AJ 2992 was found to possess potent ribavirin-producing ability, from orotidine and TCA. In the presence of intact cells of E. carotovora AJ 2992, 183 mm ribavirin was produced from 300 mm orotidine and 300 mm TCA on 48 hr reaction.