Estimation of diversity and community structure through restriction fragment length polymorphism distribution analysis of bacterial 16S rRNA genes from a microbial mat at an active, hydrothermal vent system, Loihi Seamount, Hawaii.

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Appl Environ Microbiol. 1994 March; 60(3): 871-879

Estimation of diversity and community structure through restriction fragment length polymorphism distribution analysis of bacterial 16S rRNA genes from a microbial mat at an active, hydrothermal vent system, Loihi Seamount, Hawaii.

C L Moyer, F C Dobbs and D M Karl

Department of Oceanography, School of Ocean and Earth Science and Technology, University of Hawaii, Honolulu 96822.

ABSTRACT

PCR was used to amplify (eu)bacterial small-subunit (16S) rRNAgenes from total-community genomic DNA. The source of total-communitygenomic DNA used for this culture-independent analysis was themicrobial mats from a deep-sea, hydrothermal vent system, Pele'sVents, located at Loihi Seamount, Hawaii. Oligonucleotides complementaryto conserved regions in the 16S rRNA-encoding DNA (rDNA) ofbacteria were used to direct the synthesis of PCR products,which were then subcloned by blunt-end ligation into phagemidvector pBluescript II. Restriction fragment length polymorphismpatterns, created by using tandem tetrameric restriction endonucleases,revealed the presence of 12 groups of 16S rRNA genes representingdiscrete operational taxonomic units (OTUs). The rank orderabundance of these putative OTUs was measured, and the two mostabundant OTUs accounted for 72.9% of all of the 16S rDNA clones.Among the remaining 27.1% of the 16S rDNA clones, none of the10 OTUs was represented by more than three individual clones.The cumulative OTU distribution for 48 bacterial 16S rDNA clonesdemonstrated that the majority of taxa represented in the clonelibrary were detected, a result which we assume to be an estimateof the diversity of bacteria in the native hydrothermal venthabitat. 16S rDNA fingerprinting of individual clones belongingto particular OTUs by using an oligonucleotide probe that bindsto a universally conserved region of the 16S rDNA fragmentswas conducted to confirm OTU specificity and 16S rDNA identity.

Appl Environ Microbiol. 1994 March; 60(3): 871-879

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