Nucleotide sequence of pnl gene from Erwinia carotovora Er

The nucleotide sequence of pnl gene encoding pectin lyase (PNL; EC4.2.2.10)from Erwinia carotovora Er was determined. The structural gene of pnl consisted of 942 base pairs. An open reading frame that could encode a 33,700 dalton polypeptide consisting 314 amino acids was assigned. The molecular size of the polypeptide predicted from the amino acid composition was close to the value of PNL determined in E.carotovora Er. The nucleotide sequence of the 5'-flanking region showed the presence of the consensus sequence of ribosome binding site, Pribnow box and the RNA polymerase recognition site in E.carotovora and Escherichia coli. Between the presumed Pribnow box and the ribosome binding site, two pairs of inverted repeats were found. By comparing the predicted amino acid sequences of pnl, several reported bacterial pectate lyases and Aspergillus niger pectin lyase, short regions of homology were found despite the different substrate specificities of these enzymes.     

Molecular cloning and sequencing of the extracellular pectate lyase II gene from Erwinia carotovora Er.

Erwinia carotovora Er produces three extra-cellular pectate lyases (PL I, II, and III). The gene for pectate lyase II (pelII) of E. carotovora Er was cloned and expressed both in Escherichia coli and E. carotovora Er. Localization experiments in E. coli showed that PL II was exclusively in the cytoplasmic space, while PL II was excreted into the culture medium. The complete nucleotides of the pelII gene were sequenced and found to include one open reading frame of 1122 bp coding for a protein of 374 amino acid residues. From comparison of the N-terminal amino acid sequence between the purified PL II and the deduced protein from the nucleotide sequence we reached the conclusion that the mature protein is composed of 352 amino acids with a calculated molecular weight of 38,169 and is preceded by a typical signal sequence of 22 amino acid residues. PL II had 90.1% and 82.9% homologies with PL I and PL III in amino acid sequence, respectively.     

Studies on the Components of Mammalian Urine

Pectate lyase was purified approximately 29-fold to electrophoretic homogeneity from Pseudomonas marginalis N6301. A pectate lyase (PL; EC4.2.2.2) gene of the strain was cloned and expressed in Escherichiacoli. The nucleotides of the PL gene (pel) were sequenced. An open reading frame that encodes a polypeptide (molecular weight: 40,812) composed of 380 amino acids including a 29 amino acid signal peptide was assigned. The structural gene of pel consisted of 1140 base pairs. The nucleotide sequence of the 5′-flanking region of pel showed a consensus sequence of the promoter region of the pectin lyase gene (pnl) in P. marginalis N6301, a Pribnow box, and a ribosome binding site as found in E. coli.     

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.     

Expression of the pectate lyase gene from Erwinia chrysanthemi ENA49 in cells of other Erwinia species

The gene for a pectate lyase of E. chrysanthemi ENA49 cloned in a recombinant plasmid pPTL1 (a derivative of RSF1010) was transferred into E. carotovora. The pectate lyase determined by the cloned gene was secreted into the cultural medium from the cells of E. crysanthemi EC16. Partial secretion of the enzyme was registered for E. carotovora cells. The major part of EC1 E. chrysanthemi pectate lyase synthesized by E. carotovora cells is accumulated in periplasmic and cytoplasmic fractions. The obtained results suggest the different specificity or efficiency of pectate lyase secretion systems in the studied Erwinia strains.     

Extracellular and periplasmic isoenzymes of pectate lyase from Erwinia carotovora subspecies carotovora belong to different gene families

Pectate lyase (Pel) plays a crucial role in the maceration of vegetables by soft rot Erwinia spp. We have characterized the four Pel isoenzymes of Erwinia carotovora subspecies carotovora strain SCRI193. In this paper we concentrate on two isoenzymes which have different locations in SCRI193: PLb is periplasmic and PLc is extracellular. Comparison of the gene products and nucleotide sequences of pelB and pelC allowed us to assign them to different gene families. In addition, we have identified a number of conserved amino acid residues that are common to all extracellular Pel isoenzymes.     

Molecular cloning of BPL1, a pectate lyase-like gene in Brassica napus

Pectate lyase (EC 4.2.2.2) is an enzyme involved in the maceration and soft rotting of plant tissue via degradation of cell wall in organisms. Plants as well as bacteria and fungi are capable of producing pectate lyases. Here we report the cloning of a novel full-length cDNA of pectate lyase gene, designated BPL1, from Brassica napus by rapid amplification of cDNA ends. BPL1 cDNA is 1787 bp containing a 1503 bp ORF encoding a 500 amino acid protein precursor. The protein precursor has a potential signal peptide with 22 amino acids. Alignment of sequences shows that there are some extremely conserved amino acids among pectate lyase-like proteins from different plant species, and novel C-terminal domains are found in Arabidopsis and Brassica. Phylogenetic analysis of 50 pectate lyase-like proteins from various species demonstrates the obvious distinction among pectate lyase-like proteins from plants, bacteria and fungi, which are subsequently clustered into three groups. The cloning of BPL1 enables us to explore its diverse roles in higher plants and potential application in crop improvement.     

A potato gene encoding a WRKY-like transcription factor is induced in interactions with Erwinia carotovora subsp. atroseptica and Phytophthora infestans and is coregulated with class I endochitinase expression

A potato gene encoding a putative WRKY protein was isolated from a cDNA library enriched by suppression subtractive hybridization for sequences upregulated 1 h postinoculation with Erwinia carotovora subsp. atroseptica. The cDNA encodes a putative polypeptide of 172 amino acids, containing a single WRKY domain with a zinc finger motif and preceded by a potential nuclear localization site. St-WRKY1 was strongly upregulated in compatible, but only weakly in incompatible, interactions with Phytophthora infestans where, in all cases, it was coregulated with class I endochitinase, associating its expression with a known defense response. Whereas St-WRKY1 was strongly induced by E. carotovora culture filtrate (CF), confirming it to be an elicitor-induced gene, no such induction was detected after treatment with salicylic acid, methyl jasmonate, ethylene, or wounding. St-WRKY1 was upregulated by treatment of potato leaves with CFs from recombinant Escherichia coli containing plasmids expressing E. carotovora pectate lyase genes pelB and pelD, suggesting that either proteins encoded by these genes, or oligogalacturonides generated by their activity, elicit a potato defense pathway associated with St-WRKY1.     

Comparison of pectic enzymes produced by Erwinia chrysanthemi, Erwinia carotovora subsp. carotovora, and Erwinia carotovora subsp. atroseptica

Erwinia spp. that cause soft-rot diseases in plants produce a variety of extracellular pectic enzymes. To assess the correlation between patterns of pectic enzyme production and taxonomic classification, we compared the enzymes from representative strains. Supernatants obtained from polygalacturonate-grown cultures of nine strains of Erwinia chrysanthemi, three strains of E. carotovora subsp. carotovora, and three strains of E. carotovora subsp. atroseptica were concentrated and subjected to ultrathin-layer polyacrylamide gel isoelectric focusing. Pectate lyase, polygalacturonase, and exo-poly-alpha-D-galacturonosidase activities were visualized by staining diagnostically buffered pectate-agarose overlays with ruthenium red after incubation of the overlays with the isoelectric focusing gels. The isoelectric focusing profiles of pectate lyase and polygalacturonase were nearly identical for strains of E. carotovora subsp. carotovora and E. carotovora subsp. atroseptica, showing three pectate lyase isozymes with isoelectric points higher than 8.7 and a polygalacturonase with pI of ca. 10.2. Isoelectric focusing profiles of the E. chrysanthemi pectic enzymes were substantially different. Although there was considerable intraspecific heterogeneity, all strains produced at least four isozymes of pectate lyase, which could be divided into three groups: basic (pI, ca. 9.0 to 10.0), slightly basic (pI, ca. 7.0 to 8.5), and acidic (pI, ca. 4.0 to 5.0). Several strains of E. chrysanthemi also produced a single form of exo-poly-alpha-D-galacturonosidase (pI, ca. 8.0).(ABSTRACT TRUNCATED AT 250 WORDS)     

Functional implications of structure-based sequence alignment of proteins in the extracellular pectate lyase superfamily.

Pectate lyases are plant virulence factors that degrade the pectate component of the plant cell wall. The enzymes share considerable sequence homology with plant pollen and style proteins, suggesting a shared structural topology and possibly functional relationships as well. The three-dimensional structures of two Erwinia chrysanthemi pectate lyases, C and E, have been superimposed and the structurally conserved amino acids have been identified. There are 232 amino acids that superimpose with a root-mean-square deviation of 3 A or less. These amino acids have been used to correct the primary sequence alignment derived from evolution-based techniques. Subsequently, multiple alignment techniques have allowed the realignment of other extracellular pectate lyases as well as all sequence homologs, including pectin lyases and the plant pollen and style proteins. The new multiple sequence alignment reveals amino acids likely to participate in the parallel beta helix motif, those involved in binding Ca2+, and those invariant amino acids with potential catalytic properties. The latter amino acids cluster in two well-separated regions on the pectate lyase structures, suggesting two distinct enzymatic functions for extracellular pectate lyases and their sequence homologs.     

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.     

Cloning and expression of a pectate lyase from the oral spirochete Treponema pectinovorum ATCC 33768

The pelA gene, encoding a pectate lyase, from Treponema pectinovorum ATCC 33768 was isolated by heterologous expression of a cosmid library in Escherichia coli. In vitro transposon mutagenesis identified an open reading frame of 1293 bp capable of encoding a protein of 430 amino acids with a predicted amino-terminal signal sequence of 21 amino acids. Analysis of the amino acid sequence suggested that it is a member of the polysaccharide lyase family 10 of which all characterized members show pectate lyase activity. An amino-terminal His-tagged recombinant form of PelA was expressed and purified from E. coli. The recombinant enzyme has characteristics common to other bacterial pectate lyases such as an alkaline pH optimum, dependence on calcium ions for activity, and inhibition by zinc ions.     

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.     

A new high-alkaline and high-molecular-weight pectate lyase from a Bacillus isolate: enzymatic properties and cloning of the gene for the enzyme

A pectate lyase (Pel; pectate transeliminase: EC4.2.2.2.), designated Pel-15H, was found in an alkaline culture of Bacillus sp. strain KSM-P15 and purified to homogeneity by sequential column chromatographies. The molecular weight of the enzyme determined by SDS-polyacrylamide gel electrophoresis was approximately 70,000 and the pI was around pH 4.6. Pel-15H randomly trans-eliminated polygalacturonate in the presence of Ca2+ ions, and the maximum activity was observed at pH 11.5 and at 55 degrees C in glycine-NaOH buffer. The gene for Pel-15H was cloned and sequenced, and the structural gene contained a 2,031-bp open reading frame that encoded 677 amino acids including a possible 28-amino-acid signal sequence. The mature enzyme (649 amino acids, molecular weight 69,550) showed very low similarity to Pels from Bacillus with 12.7-18.2% identity. Interestingly, part of the amino acid sequence of Pel-15H had fairly high similarity only to an N-terminal half of PelL and a C-terminal half of PeIX from Erwinia chrysanthemi 3937, and a C-terminal half of PeIX from E. chrysanthemi EC16 (approximately 35% identity for all).     

Expression of a Bacillus subtilis pectate lyase gene in Pichia pastoris

The methylotrophic yeast Pichia pastoris is an attractive heterologous protein expression host, mainly for genes from higher eukaryotes. However, no successful examples for the expression of bacterial gene encoding pectate lyase in P. pastoris have been reported. The present study reports for the first time the cloning and functional expression of the bacterial Bacillus subtilis gene encoding alkaline pectate lyase in P. pastoris. A molecular weight of 43,644 Da was calculated from the deduced amino acid sequence. A pectate lyase activity as high as 100 U/ml was attained in the fermentation broth of P. pastoris GS 115, which was about 10 times higher than when the gene is expressed in Escherichia coli. The recombinant pectate lyase was purified to homogeneity and maximal activity of the enzyme was observed at 65 °C, and pH 9.4. The recombinant enzyme showed a wider pH and thermal stability spectrum than the purified pectate lyase from B. subtilis WSHB04-02. Pectate lyase activity slightly increased in the presence of Mg²⁺ (ion) but decreased in the presence of other metal ions. Analysis of polygalacturonic acid degradation products by electrospray ionization-mass spectrometry revealed that the degradation products were unsaturated trigalacturonic acid and unsaturated bigalacturonic acid, which confirms that the enzyme catalyzes a trans-elimination reaction.     

Molecular cloning and nucleotide sequence of a pectin lyase gene from Pseudomonas marginalis N6301.

A pectin lyase (PNL;EC4.2.2.10) gene of Pseudomonas marginalis N6301 was cloned and expressed in Escherichia coli. We purified PNL from P. marginalis N6301 and determined N-terminal 33 amino acids sequence. From this sequence, we synthesized two oligonucleotide probes. From the analysis of Southern hybridization, 2. 1kb EcoRI-SmaI fragment from the chromosomal DNA of P. marginalis was found to hybridize with oligonucleotide probes. Then, we cloned the fragment into pUC119 vector and transformed into E. coli DH5 alpha. A plasmid thus obtained was designated as pPNL6301. E. coli DH5 alpha harboring pPNL6301 expressed PNL activity. The nucleotide sequence of pn1 gene in the plasmid pPNL6301 encoding PNL from P. marginalis N6301 was determined. The structural gene of pn1 consisted of 936 base pairs. An open reading frame that encodes a 34,103 dalton polypeptide composed of 312 amino acids was assigned. The molecular weight of the polypeptide predicted from the amino acid composition was close to that of PNL of P. marginalis N6301 determined. The nucleotide sequence of the 5'-flanking region of pn1 gene showed the presence of the consensus sequence of LexA binding site, Pribnow box and ribosome binding site as found in Escherichia coli. The amino acid sequence homology of PNLs and nucleotide sequence homology of pn1 gene between P. marginalis N6301 and E. carotovora Er were 60.8% and 57.2%, respectively.