Jo. Mcinerney et al., EXTRACTION OF PROKARYOTIC GENOMIC DNA FROM MARINE MICROBIAL COMMUNITIES SUITABLE FOR AMPLIFICATION USING THE POLYMERASE CHAIN-REACTION, Internationale Revue der gesamten Hydrobiologie, 80(2), 1995, pp. 351-360
We present a method for extraction of DNA from marine microbial commun
ities and amplification of the small subunit ribosomal RNA gene from t
he prokaryotic organisms contained therein. Results of cloning, sequen
cing and phylogenetic analyses are also presented. This DNA extraction
technique is specifically designed to be used in conjunction with the
Polymerase Chain Reaction (PCR). Emphasis was placed on producing a t
echnique which results in total cell lysis yielding DNA of sufficient
purify to facilitate amplification using PCR. Minimisation of surface
contamination and procedure suitability for a multi-sample study were
considered to be of prime importance throughout this investigation. As
a demonstration of the suitability of the technique, a preliminary an
alysis of the small subunit ribosomal RNA (SSU rRNA) gene from marine
microbial communities was investigated. The amplification reactions ar
e designed to specifically target the SSU rRNA gene from the two prima
ry prokaryotic domains: Bacteria and Archaea sensu Woese (WOESE et nl.
, 1990). The primers were designed to amplify a sequence exceeding 1 K
b in length which is sufficient for use in taxonomic and phylogenetic
analyses of marine communities (MURRAY and SCHLEIFER, 1994). The sampl
es used represent spatially and temporally distinct regimes, from the
North East Atlantic. These include water samples from open ocean sites
and gut contents from a deep sea deposit feeder, Oneirophanta mutabil
is (Holothuria: Elasipodida). The analysis shows the identification of
a group of unusual Archaea, as-yet uncultured, in the samples analyse
d.