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  • Title: Phylogenetic characterization of several para- and meta-PCB dechlorinating Clostridium species: 16s rDNA sequence analyses.
    Author: Hou L, Dutta SK.
    Journal: Lett Appl Microbiol; 2000 Mar; 30(3):238-43. PubMed ID: 10747258.
    Abstract:
    The genus Clostridium has more than 127 species, grouped according to their morphology and functions. Nine Clostridium species were identified based on their ability to dechlorinate meta- and para-PCB (polychlorinated biphenyl) contaminated sediments. The phylogenetic relatedness of these PCB-degrading Clostridium species was studied using ribosomal RNA genes. The diversity of small-subunit rRNA genes associated with the domain bacteria was examined using defined operational taxonomic units (OTUs) in samples from PCB contaminated sediments from Lake Medinah, New York. The RFLP (restriction fragment length polymorphism) of the OTVs was measured. OTUs B (105 clones), A (33 clones) and C (45 clones) accounted for 75% of all the 16S rDNA clones expressing anaerobic para- and meta-PCB dechlorinating activity. In this report we describe complete 16S rDNA sequences of OTU-A and OTU-B, and partial rDNA sequences of OTUs C-J. The OTU-B and OTU-I form a phylogenetically related cluster, closely affiliated with Clostridium hydroxybenzoicum strains. OTUs A, C, D, G, H and J also belong to the genus Clostridium, but they represent separate species. OTU-E, a close affiliate to Bacteroides forsynthus, is a meta-PCB dechlorinator. The Cl. hydroxybenzoicum strains (OTU-B) are primarily para-PCB dechlorinators and are the most common. Some less prevalent OTUs (- E, -G, -H and -I), are also mostly para-PCB dechlorinators. Other Clostridium species such as Cl. beijerinckii (OTU-A), Cl. intestinalis (OTU-D) and Cl. thermolacticum (OTU-J) are primarily meta-PCB dechlorinators. Cl. paraputrificum (OTU-C) and Cl. cellulosi (OTU-F), were less prevalent in the total consortium, but they could dechlorinate both para- and meta-PCB. Although a few less prevalent Clostridium species can degrade both para- and meta-PCBs, this study confirms that para- and meta-PCB dechlorinating species are generally phylogenetically different.
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