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Dhalluin A,
Lemée L,
Pestel-Caron M,
Mory F,
Leluan G,
Lemeland JF,
Pons JL,
( 2003 ) Genotypic differentiation of twelve Clostridium species by polymorphism analysis of the triosephosphate isomerase (tpi) gene. PMID : 12747415 : DOI : 10.1078/072320203322337362 Abstract >>
Housekeeping genes encoding metabolic enzymes may provide alternative markers to 16S ribosomal DNA (rDNA) for genotypic and phylogenetic characterization of bacterial species. We have developed a PCR-restriction fragment length polymorphism (PCR-RFLP) assay, targeting the triosephosphate isomerase (tpi) gene, which allows the differentiation of twelve pathogenic Clostridium species. Degenerate primers constructed from alignments of tpi sequences of various gram-positive bacteria allowed the amplification of a 501 bp target region in the twelve Clostridium type strains. A phylogenetic tree constructed from the nucleotidic sequences of these tpi amplicons was well correlated with that inferred from analysis of 16S rDNA gene sequences. The analysis of tpi sequences revealed restriction sites of enzyme AluI that could be species-specific. Indeed, AluI digestion of amplicons from the twelve type strains provided distinct restriction patterns. A total of 127 strains (three to sixteen strains for each species) was further analyzed by PCR-RFLP of the tpi gene, and confirmed that each species could be characterized by one to three restriction types (RTs). The differences between RTs within species could be explained by point mutations in AluI restriction sites of the tpi sequences. PCR-restriction analysis of the tpi gene offers an accurate tool for species identification within the genus Clostridium, and provides an alternative marker to 16S rDNA for phylogenetic analyses.
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2. |
Kosowska K,
Reinholdt J,
Rasmussen LK,
Sabat A,
Potempa J,
Kilian M,
Poulsen K,
( 2002 ) The Clostridium ramosum IgA proteinase represents a novel type of metalloendopeptidase. PMID : 11815614 : DOI : 10.1074/jbc.M110883200 Abstract >>
Clostridium ramosum is part of the normal flora in the human intestine. Some strains produce an IgA proteinase that specifically cleaves human IgA1 and the IgA2m(1) allotype. This prolylendopeptidase was purified from a broth culture supernatant, and N-terminal sequences of the native protein and tryptic fragments thereof were determined. A fragment of the iga gene encoding the IgA proteinase was isolated using degenerate primers in PCR, and the complete gene was obtained by inverse PCR. The identity of the iga gene was confirmed by heterologous expression in Escherichia coli. The deduced amino acid sequence indicated a signal peptide of 30 residues and a secreted proteinase of 133,828 Da. A typical Gram-positive cell wall anchor motif was identified in the C terminus. The presence of a putative zinc-binding motif His-Glu-Phe-Gly-His together with inhibition studies indicate that the proteinase belongs to the zinc-dependent metalloproteinases. However, the sequence of the C. ramosum IgA proteinase shows no overall similarity to other proteins except for significant identity around the zinc-binding motif with family M6 of metalloendopeptidases, and the unique sequence of the IgA proteinase in this area presumably establishes a new subfamily. The GC percentage of the iga gene is significantly higher than that for the entire genome of C. ramosum, suggesting that the gene was acquired recently in evolution.
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