Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:4.2.2.10 (PNL)
341 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In Erwinia carotovora subsp. carotovora 71, the induction of pectin lyase (Pnl), the bacteriocin carotovoricin (Ctv), and cellular lysis (Lss) requires a RecA function. We obtained mutants wherein a pleiotropic defect, i.e., the lack of induction with mitomycin C, is not restored by the recA+ DNA. From a genomic library of strain 71, a cosmid (pAKC280) that restored induction of Pnl, Ctv, and Lss by mitomycin C was isolated. The activator function, designated Rdg for regulator of damage-inducible genes, was localized by subcloning and insertional mutagenesis to a 2.6-kb region within a 6.7-kb EcoRI fragment. An rdg-lacZ operon fusion was inducible by mitomycin C in RecA+ but not RecA- derivatives of E. carotovora subsp. carotovora 71 and Escherichia coli. A RecA+ E. coli strain carrying only a PnlA+ plasmid was not inducible for Pnl production; however, when both a PnlA+ plasmid and a Rdg+ plasmid were present, the transcription of pnlA and the production of the enzyme were activated by mitomycin C. The size of the pnlA transcript produced in E. coli was identical to that of the transcript produced by E. carotovora subsp. carotovora 71, suggesting that the same promoter and termination sequences were being utilized in these bacteria.
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PMID:Genetic evidence for an activator required for induction of pectin lyase in Erwinia carotovora subsp. carotovora by DNA-damaging agents. 164 76

In a previous study, pnlA (the DNA damage-inducible structural gene for pectin lyase) of Erwinia carotovora subsp. carotovora 71 was localized to a 1.4-kb DNA segment within a 3.4-kb EcoRI fragment (J. L. McEvoy, H. Murata, and A. K. Chatterjee, J. Bacteriol. 172:3284-3289, 1990). We present here DNA sequence data for a 2.2-kb region revealing an open reading frame of 870 bases, corresponding to a protein (Pnl) of an approximate molecular mass of 32,100 Da and an isoelectric point of 9.92. Although initiation of translation is presumed to occur at the ATG codon, direct protein sequencing revealed alanine as the N-terminal amino acid, probably as a consequence of posttranslational removal of the initiating amino acid. The sequence of the first 20 amino acid residues of Pnl, purified from E. carotovora subsp. carotovora 71, agreed completely with the predicted amino acid sequence of the N-terminal segment. This finding also indicated that Pnl is not subject to processing by a signal peptidase. The transcriptional start site of pnlA was determined to reside 80 bp upstream of the translational start site. Deletion analysis revealed that 218 bp of DNA upstream of the transcriptional start site is sufficient for induction of pnlA by mitomycin C. Within 600 bp upstream of the translational start site, no sequences resembling a LexA binding site (SOS box) or a cyclic AMP receptor protein binding site were found. However, palindromic sequences were detected at -187 and -86 bp relative to the translational start site, and these could be potential sites for the binding of a regulatory protein(s). Comparison of the deduced amino acid sequence for PnlA with that of a Pnl from Aspergillus niger and with those of various pectate lyases of Erwinia species revealed a low degree of homology dispersed throughout the length of the proteins.
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PMID:Nucleotide sequence and molecular characterization of pnlA, the structural gene for damage-inducible pectin lyase of Erwinia carotovora subsp. carotovora 71. 170 42

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.
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PMID:Molecular cloning and nucleotide sequence of a pectin lyase gene from Pseudomonas marginalis N6301. 173 76

We have characterised three pollen-expressed genes (LAT52, LAT56 and LAT59) from tomato in order to determine their role in pollen development, and to determine the DNA sequences responsible for gene expression in pollen. LAT52 encodes a protein that shows amino acid sequence similarity to a protein encoded by a pollen-specific cDNA clone (pZmc13) isolated from maize, and both proteins have amino acid sequence similarity to Kunitz trypsin inhibitors of soybean and winged bean. The proteins encoded by LAT56 and LAT59 genes are 54% identical at the amino acid level, and show significant sequence similarity to bacterial pectate lyases and to a fungal pectin lyase. Additionally, regions of LAT56 and LAT59 show significant sequence similarity to tryptic peptides of ragweed and Japanese cedar pollen allergens. Preliminary results suggest that plants harboring antisense constructs of the LAT52 coding region show defects in pollen germination and fertilisation; no obvious phenotype was seen in plants harboring antisense constructs of the LAT59 coding region. Promoter fragments of these three LAT genes were fused to the reporter gene GUS and assayed using both a transient system and stably transformed plants. We have identified relatively short regions of the LAT promoters that are important for pollen expression, and are attempting to isolate trans-acting factors that interact with these cis-acting sequences, using both molecular and classical genetic approaches.
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PMID:Molecular analysis of gene regulation and function during male gametophyte development. 184 11

recA-mediated production of pectin lyase (PNL) and the bacteriocin carotovoricin occurs in Erwinia carotovora subsp. carotovora 71 when this organism is subjected to agents that damage or inhibit the synthesis of DNA. The structural gene pnlA was isolated from a strain 71 cosmid gene library following mobilization of the cosmids into a moderate PNL producer, strain 193. The cosmid complemented pnl::Tn5 but not ctv::Tn5 mutations. A constitutive level of PNL activity was detected in RecA+ and RecA- Escherichia coli strains carrying the pnlA+ gene on the high-copy-number plasmid pBluescript SK-. Mappings of Mu dI1734 (Km lac'ZYA) insertions in pnlA and unidirectional deletion analyses allowed localization of the gene to approximately 1.4 kilobases of DNA. A typical pnlA-lacZ transcriptional fusion was inducible in a RecA+ but not a RecA- derivative of strain 71. In contrast, the pnlA-lacZ fusion was not inducible in a RecA+ E. coli strain. DNA sequences homologous to pnlA were detected in E. carotovora subsp. carotovora and E. carotovora subsp. atroseptica strains and in one of four Erwinia rhapontici strains but not in Erwinia chrysanthemi.
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PMID:Molecular cloning and characterization of an Erwinia carotovora subsp. carotovora pectin lyase gene that responds to DNA-damaging agents. 218 56

In most soft-rotting Erwinia spp., including E. carotovora subsp. carotovora strain 71 (Ecc71), production of the plant cell wall degrading enzyme pectin lyase (Pnl) is activated by DNA-damaging agents such as mitomycin C (MC). Induction of Pnl production in Ecc71 requires a functional recA gene and the rdg locus. DNA sequencing and RNA analyses revealed that the rdg locus contains two regulatory genes, rdgA and rdgB, in separate transcriptional units. There is high homology between RdgA and repressors of lambdoid phages, specially phi 80. RdgB, however, has significant homology with transcriptional activators of Mu phage. Both RdgA and RdgB are also predicted to possess helix-turn-helix motifs. By replacing the rdgB promoter with the IPTG-inducible tac promoter, we have determined that rdgB by itself can activate Pnl production in Escherichia coli. However, deletion analysis of rdg+ DNA indicated that, when driven by their native promoters, functions of both rdgA and rdgB are required for the induction of pnlA expression by MC treatment. While rdgB transcription occurs only after MC treatment, a substantial level of rdgA mRNA is detected in the absence of MC treatment. Moreover, upon induction with MC, a new rdgA mRNA species, initiated from a different start site, is produced at a high level. Thus, the two closely linked rdgA and rdgB genes, required for the regulation of Pnl production, are expressed differently in Ecc71.
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PMID:Nucleotide sequence, organization and expression of rdgA and rdgB genes that regulate pectin lyase production in the plant pathogenic bacterium Erwinia carotovora subsp. carotovora in response to DNA-damaging agents. 771 60

The feasibility of performing routine transformation-mediated mutagenesis in Glomerella cingulata was analysed by adopting three one-step gene disruption strategies targeted at the pectin lyase gene pnlA. The efficiencies of disruption following transformation with gene replacement- or gene truncation-disruption vectors were compared. To effect replacement-disruption, G. cingulata was transformed with a vector carrying DNA from the pnlA locus in which the majority of the coding sequence had been replaced by the gene for hygromycin B resistance. Two of the five transformants investigated contained an inactivated pnlA gene (pnlA-); both also contained ectopically integrated vector sequences. The efficacy of gene disruption by transformation with two gene truncation-disruption vectors was also assessed. Both vectors carried at 5' and 3' truncated copy of the pnlA coding sequence, adjacent to the gene for hygromycin B resistance. The promoter sequences controlling the selectable marker differed in the two vectors. In one vector the homologous G. cingulata gpdA promoter controlled hygromycin B phosphotransferase expression (homologous truncation vector), whereas in the second vector promoter elements were from the Aspergillus nidulans gpdA gene (heterologous truncation vector). Following transformation with the homologous truncation vector, nine transformants were analysed by Southern hybridisation; no transformants contained a disrupted pnlA gene. Of nineteen heterologous truncation vector transformants, three contained a disrupted pnlA gene; Southern analysis revealed single integrations of vector sequence at pnlA in two of these transformants. pnlA mRNA was not detected by Northern hybridisation in pnlA- transformants. pnlA- transformants failed to produce a PNLA protein with a pI identical to one normally detected in wild-type isolates by silver and activity staining of isoelectric focussing gels. Pathogenesis on Capsicum and apple was unaffected by disruption of the pnlA gene, indicating that the corresponding gene product, PNLA, is not essential for pathogenicity. Gene disruption is a feasible method for selectively mutating defined loci in G. cingulata for functional analysis of the corresponding gene products.
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PMID:Gene inactivation in the plant pathogen Glomerella cingulata: three strategies for the disruption of the pectin lyase gene pnlA. 786 90

Oligodeoxyribonucleotide primers were designed from conserved amino acid (aa) sequences between pectin lyase D (PNLD) from Aspergillus niger and pectate lyases A and E (PELA/E) from Erwinia chrysanthemi. The polymerase chain reaction (PCR) was used with these primers to amplify genomic DNA from the plant pathogenic fungus Glomerella cingulata. Three different 220-bp fragments with homology to PNL-encoding genes from A. niger, and a 320-bp fragment with homology to PEL-encoding genes from Nicotiana tabacum and E. carotovora were cloned. One of the 220-bp PCR products (designated pnlA) was used as a probe to isolate a PNL-encoding gene from a lambda genomic DNA library prepared from G. cingulata. Nucleotide (nt) sequence data revealed that this gene has seven exons and codes for a putative 380-aa protein. The nt sequence of a cDNA clone, prepared using PCR, confirmed the presence of the six introns. The positions of the introns were different from the sites of the five introns present in the three PNL-encoding genes previously sequenced from A. niger. PNLA was synthesised in yeast by cloning the cDNA into the expression vector, pEMBLYex-4, and enzymatically active protein was secreted into the culture medium. Significantly higher expression was achieved when the context of the start codon, CACCATG, was mutated to CAAAATG, a consensus sequence commonly found in highly expressed yeast genes. The produced protein had an isoelectric point (pI) of 9.4, the same as that for the G. cingulata pnlA product.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The pectin lyase-encoding gene (pnl) family from Glomerella cingulata: characterization of pnlA and its expression in yeast. 818 49

Erwinia chrysanthemi is an enterobacterium that causes various plant diseases. Its pathogenicity results from the secretion of pectinolytic enzymes responsible for the disorganization of the plant cell wall. The E. chrysanthemi strain 3937 produces two pectin methylesterases, at least seven pectate lyases, a polygalacturonase, and a pectin lyase. The extracellular degradation of the pectin leads to the formation of oligogalacturonides that are catabolized through an intracellular pathway. The pectinase genes are expressed from independent cistrons, and their transcription is favored by environmental conditions such as presence of pectin and plant extracts, stationary growth phase, low temperature, oxygen or iron limitation, and so on. Moreover, transcription of the pectin lyase gene responds to DNA-damaging agents. The differential expressions of individual pectinase genes presumably reflect their role during plant infection. The regulation of pel genes requires several regulatory systems, including the KdgR repressor, which mediates the induction of all the pectinolysis genes in the presence of pectin catabolites. KdgR also controls the genes necessary for pectinase secretion and other pectin-inducible genes not yet characterized. PecS, a cytoplasmic protein homologous to other transcriptional regulators, can bind in vitro to the regulatory regions of pectinase and cellulase genes. The PecT protein, a member of the LysR family of transcriptional regulators, represses the expression of some pectinase genes and also affects other metabolic pathways of the bacteria. Other proteins involved in global regulations, such as CRP or HNS, can bind to the regulatory regions of the pectinase genes and affect their transcription.
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PMID:Regulation of pectinolysis in Erwinia chrysanthemi. 890 80

The production of pectin lyase (Pnl) in Erwinia carotovora ssp. carotovora strain 71 is induced by DNA-damaging agents such as mitomycin C (MC). This induction requires functions of recA, rdgA and rdgB genes. Based upon sequence homology, rdgA was predicted to encode a repressor and rdgB was presumed to specify a transcriptional activator. To elucidate the function of rdgA, the gene has been over-expressed in Escherichia coli, and the 30 kDa product purified by ammonium-sulphate precipitation, heparin-agarose chromatography and gel filtration. The results of gel mobility-shift and DNase I protection assays revealed that purified RdgA specifically binds the rdgA operator sequence located between the -10 and -35 boxes. The expression of a rdgA-lacZ gene fusion in E. coli MC4100 is suppressed upon overproduction of RdgA from a Ptac-rdgA construct induced by isopropyl-beta-D-thiogalactopyranoside (IPTG). However, the suppression of rdgA-tacZ expression is relieved by MC in the RecA+ E. coli strain MC4100, but not in its RecA- derivative, MC4160. An immunoblot analysis revealed RecA-dependent in vivo cleavage of the 30 kDa RdgA protein upon MC treatment. These results demonstrate that the transcription of rdgA is autoregulated, and strongly support the idea that proteolytic activity of RecA* is responsible for the derepression of rdgA expression.
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PMID:RecA relieves negative autoregulation of rdgA, which specifies a component of the RecA-Rdg regulatory circuit controlling pectin lyase production in Erwinia carotovora ssp. carotovora. 897 12


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