Erwinia chrysanthemi EC16 Produces a Second Set of Plant-Inducible Pectate Lyase Isozymes

The enterobacterium Erwinia chrysanthemi causes soft-rot diseases involving extensive tissue maceration in a wide variety of plants and secretes multiple pectic enzymes that degrade plant cell walls and middle lamellae. An E. chrysanthemi mutant with directed deletions or insertions in genes pehX, pelX, pelA, pelB, pelC, and pelE, which encode exo-poly-alpha-d-galacturonosidase, exopolygalacturonate lyase, and four isozymes of pectate lyase, respectively, was constructed by the marker exchange of a cloned pehX::TnphoA fragment into E. chrysanthemi CUCPB5010, a Delta(pelA pelE) Delta(pelB pelC)::28bp Delta(pelX)Delta4bp derivative of strain EC16. This mutant, E. chrysanthemi CUCPB5012, no longer caused pitting in a standard pectate semisolid agar medium used to detect pectolytic activity in bacteria. Nevertheless, the mutant still macerated leaves of chrysanthemum (Chrysanthemum morifolium), although with reduced virulence. The mutant was found to produce significant pectate lyase activity in rotting chrysanthemum tissue and in minimal media containing chrysanthemum extracts or cell walls as the sole carbon source. Activity-stained, ultra-thin-layer isoelectric focusing gels revealed the presence in these preparations of several pectate lyase isozymes with pIs ranging from highly acidic to highly alkaline. Sterile culture fluids containing these isozymes were able to macerate chrysanthemum leaf tissue. Unlike the products of the pelA, pelB, pelC, and pelE genes in E. chrysanthemi EC16, these plant-inducible pectate lyase isozymes were not produced in minimal medium containing pectate. The results suggest that E. chrysanthemi produces two sets of independently regulated pectate lyase isozymes that are capable of macerating plant tissues.     

Cloning and characterization of a pectate lyase gene from Erwinia carotovora EC153

A pel gene cloned from strain EC153 of Erwinia carotovora encoded a pectate lyase that macerated plant tissue with moderate efficiency. This gene, called pel153, was sequenced and found to possess considerable homology with a pectate lyase gene from Yersinia pseudotuberculosis. The Yersinia protein, however, was truncated at the carboxyl terminal end relative to the Erwinia gene product and had a lower isoelectric point. The Erwinia pel153 gene was overexpressed in cells of Escherichia coli, and a 56-kDa protein was observed on sodium dodecyl sulfate-polyacrylamide gels. This compares with a molecular weight of 61 kDa for the mature, secreted protein as determined from sequencing data. Southern blot analysis disclosed the presence of the pel153 gene in three different strains of E. carotovora, but mutation of the gene in strain EC153 did not affect its ability to soft-rot potato tubers.     

Molecular cloning of the structural gene for exopolygalacturonate lyase from Erwinia chrysanthemi EC16 and characterization of the enzyme product.

The ability of Erwinia chrysanthemi to cause soft-rot diseases involving tissue maceration in many plants has been linked to the production of endo-pectate lyase E. chrysanthemi EC16 mutant UM1005, however, contains deletions in the pel genes that encode the known endopectate lyases, yet still macerates plant tissues. In an attempt to identify the remaining macerating factor(s), a gene library of UM1005 was constructed in Escherichia coli and screened for pectolytic activity. A clone (pPNL5) was identified in this library that contained the structural gene for an exopolygalacturonate lyase (ExoPL). The gene for ExoPL was localized on a 3.3-kb EcoRV fragment which contained an open reading frame for a 79,500-Da polypeptide. ExoPL was purified to apparent homogeneity from Escherichia coli DH5 alpha (pPNL5) and found to have an apparent molecular weight of 76,000 with an isoelectric point of 8.6. Purified ExoPL had optimal activity between pH 7.5 and 8.0 and could utilize pectate, citrus pectin, and highly methyl-esterified Link pectin as substrates. A PL- ExoPL- mutant of EC16 was constructed that exhibited reduced growth on pectate, but retained pathogenicity on chrysanthemum equivalent to that of UM1005. The results indicate that ExoPL does not contribute to the residual macerating activity of UM1005.     

Purification of the acidic pectate lyase and nucleotide sequence of the corresponding gene (pelA) of Erwinia chrysanthemi strain 3937.

The pelA gene from Erwinia chrysanthemi strain 3937, which encodes the acidic pectate lyase, PLa, has been sequenced and characterized. The structural gene consists of a 1179 bp open reading frame encoding a polypeptide of 41,555 Da, which includes an N-terminal signal peptide. The deduced amino acid sequence shows a protein very similar to some PLs already sequenced. Cloning of the pelA gene behind the lacZ promoter of the vector pTZ19R allowed overexpression of PLa into a derivative of strain 3937 deleted of the other pel genes. The mature protein was obtained in milligram amounts from the supernatant of this strain and at homogeneous purity after two purification steps. Its biochemical properties were similar to those of other PLs. Polyclonal antibodies raised against the purified PLa cross-reacted with the basic pectate lyase PLd, but not with PLe. The role of PLa in pathogenicity is discussed.     

Cloning and sequencing of pel gene responsible for CMCase activity from Erwinia chrysanthemi PY35

The phytopathogenic bacterium Erwinia chrysanthemi secretes multiple isozymes of plant cell wall disrupting enzymes such as pectate lyase and endoglucanase. We cloned genomic DNA from Erwinia chrysanthemi PY35. One of the E. coli XL1-Blue clones contained a 5.1-kb BamHI fragment and hydrolyzed carboxymethyl cellulose and polygalacturonic acid. By subsequent subcloning, we obtained a 2.9-kb fragment (pPY100) that contained the pel gene responsible for CMCase and pectate lyase activities. The pel gene had an open reading frame (ORF) of 1,278 bp encoding 425 amino acids with a signal peptide of 25 amino acids. Since the deduced amino acid sequence of this protein was very similar to that of PelL of E. chrysanthemi EC16, we concluded that it belonged to the pectate lyase family EC 4.2.2.2, and we designated it PelL1. Sequencing showed that the PeIL1 protein contains 400 amino acids and has a calculated pI of 7.15 and a molecular mass of 42,925 Da. The molecular mass of PelL1 protein expressed in E. coli XL1-Blue, as analyzed by SDS-PAGE, appeared to be 43 kDa. The optimum pH for its enzymatic activity was 9, and the optimum temperature was about 40 decreased C.     

Cloning and characterization of a pectate lyase gene from the soft-rotting bacterium Pseudomonas viridiflava.

Pseudomonas viridiflava is a soft-rotting pathogen of harvested vegetables that produces an extracellular pectate lyase (PL) responsible for maceration of plant tissue. A pel gene encoding PL was cloned from the genome of strain SJ074 and efficiently expressed in Escherichia coli. After a series of deletion subclonings and analysis by transposon mutagenesis, the pel gene was located in a 1.2-kb PstI-BglII genomic fragment. This fragment appears to contain a promoter at the PstI end required for pel gene expression. The PL produced by pectolytic E. coli clones is identical to those produced by strain SJ074 and by other strains of P. viridiflava in terms of molecular weight (42 kDa) and pI (9.7). A mutant of strain SJ074, designated MEI, which had Tn5 specifically inserted in the pel locus was constructed by site-directed mutagenesis. The MEI mutant produced 70- to 100-fold less PL than the wild type and failed to cause tissue maceration in plants. PL production and soft-rot pathogenicity in MEI and in a Pel- mutant previously isolated from strain SF312 were restored to the wild-type level by complementation in trans with the cloned pel gene. By using the 1.2-kb fragment as a probe, pel homologs were detected in four bacteria that are pathologically unrelated to P. viridiflava. These include three pathovars of P. syringae (pv. lachrymans, pv. phaseolicola, and pv. tabaci) and Xanthomonas campestris pv. malvacearum. No DNA fragments showing homology to pel of P. viridiflava were detected in genomic digests prepared from two strains of soft-rot erwinias.(ABSTRACT TRUNCATED AT 250 WORDS)     

Expression of pectate lyase from Colletotrichum gloesosporioides in C. magna promotes pathogenicity

To test the contribution of pectate lyase (PL) to promoting fungal pathogenicity, a pectate lyase gene (pel) from the avocado pathogen Colletotrichum gloeosporioides, isolate Cg-14, was expressed in C. magna isolate L-2.5, a pathogen of cucurbits that causes minor symptoms in watermelon seedlings and avocado fruits. Isolate L-2.5 was transformed with pPCPH-1 containing hph-B as a selectable marker and the 4.1-kb genomic pel clone. Southern hybridization, with the 4.1-kb genomic pel clone or 2.13-kb hph-B cassette as probes, detected integration of pel in transformed C. magna isolates Cm-PL-3 and Cm-PL-10. Western blot (immunoblot) analysis with antibodies against Cg-14 PL detected a single PL secreted by L-2.5 at a molecular mass of 41.5 kDa, whereas the PL of C. gloeosporioides had a molecular mass of 39 kDa. When PL activity was measured 4 days after inoculation in pectolytic enzyme-inducing media (PEIM), transformed isolates Cm-PL-3 and Cm-PL-10 showed additive PL activity relative to both Cg-14 and L-2.5. Transformed isolates also showed additive maceration capabilities on avocado pericarp relative to the wild-type C. magna alone, but did not reach the maceration ability of C. gloeosporioides. However, more severe maceration and damping off developed in watermelon seedlings inoculated with the transformed isolates compared with the two wild-type isolates, which showed no symptom development on these seedlings during the same period. Results clearly show the contribution of a single pel to the pathogenic abilities of C. magna and suggest that PL is a pathogenicity factor required for the penetration and colonization of Colletotrichum species.     

Export of Erwinia chrysanthemi (EC16) protease by Escherichia coli

Abstract During exponential growth, Erwinia chrysanthemi (EC16) exports 99% of the protease (PRT) into the growth medium. By screening an EC16 genomic library in Escherichia coli HB101, several Prt⁺ clones were identified. A 16-kb Eco RI fragment, carrying the prt gene, was subcloned into pBR322 (pAKC326). E. coli HB101[pAKC326] cells exported PRT into the growth medium during exponential growth. PRT export was not accompanied by periplasmic leakage. E. coli HB101 carrying EC16 prt and pel genes (encoding pectate lyase) exported PRT but retained PEL in the periplasm. These findings indicate the occurrence of a PRT-specific export system in EC16, which is also functional in an E. coli strain carrying the prt ⁺ DNA segment.     

Regulation of the Aspergillus nidulans pectate lyase gene (pelA).

Aspergillus nidulans pectate lyase was purified from culture filtrates. The enzyme catalyzed a random eliminative cleavage reaction, had an apparent molecular weight of 40,000, and a pl of 4.2. Pectate lyase antisera were produced and used to identify pectate lyase clones in a cDNA expression library. Thirteen of 14 clones identified immunologically cross-hybridized. The identity of the single-copy pectate lyase gene, which we designated pelA, was confirmed in two ways. First, several cDNA clones expressed pectate lyase activity in Escherichia coli. Second, targeted mutation of the gene in A. nidulans resulted in complete loss of enzyme activity. pelA encodes a 1,300-nucleotide mRNA that was present in cells grown with polygalacturonic acid as carbon source but absent from cells grown with glucose or acetate as carbon source. Thus, pectate lyase expression is regulated at the level of mRNA accumulation.     

Use of Tn5tac1 to clone a pel gene encoding a highly alkaline, asparagine-rich pectate lyase isozyme from an Erwinia chrysanthemi EC16 mutant with deletions affecting the major pectate lyase isozymes.

Erwinia chrysanthemi mutant CUCPB5047, delta(pelA pelE) delta(pelB pelC)::28bp delta(pelX) delta 4bp pehX::omega Cmr, was constructed, mutated with Tn5tac1, and screened for isopropyl-beta-D-thiogalactopyranoside-dependent pectate lyase (Pel) production. A Kmr SacI fragment from the hyperexpressing Pel+ mutant CUCPB5066 was cloned into Escherichia coli and sequenced. The gene identified, pelL, encodes a novel, asparagine-rich, highly alkaline enzyme that is similar in primary structure to PelX and in enzymological properties to PelE.