Analysis of the {beta}' Subunit of DNA-Dependent RNA Polymerase Does Not Support the Hypothesis Inferred from 16S rRNA Analysis that Oenococcus oeni (Formerly Leuconostoc oenos) Is a Tachytelic (Fast-Evolving) Bacterium

doi:10.1099/00207713-46-4-1004

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Analysis of the β' Subunit of DNA-Dependent RNA Polymerase Does Not Support the Hypothesis Inferred from 16S rRNA Analysis that Oenococcus oeni (Formerly Leuconostoc oenos) Is a Tachytelic (Fast-Evolving) Bacterium

ROBERT MORSE, MATTHEW D. COLLINS^*, KAREN O'HANLON, SALLY WALLBANKS and PETER T. RICHARDSON

Institute of Food Research, Reading Laboratory, Reading, RG6 6BZ, United Kingdom

^* Corresponding author. Mailing address: Institute of Food Research, Reading Laboratory, Earley Gate, Reading, RG6 6BZ, United Kingdom. Phone: 44-1734 357226. Fax: 44-1734 267917.

ABSTRACT

rRNA sequencing has shown that Leuconostocs comprise three distinctphylogenetic lineages which have been designated separate genera(viz., the genera Leuconostoc sensu stricto, Oenococcus, andWeissella). In addition, the 16S rRNA line formed by Oenococcusoeni (formerly Leuconostoc oenos) is exceptionally long: Thisfact, together with variations in the compositions of conservedpositions in the 16S rRNA, has led to the hypothesis (D. Yangand C. R. Woese, Syst. Appl. Microbiol. 12:145-149, 1989) thatthis organism is a fast-evolving bacterium. Previous evidencethat the leuconostocs should be divided into three genera andthat O. oeni is an example of tachytelic evolution has comesolely from rRNA analyses. In this study we sequenced the rpoCgene encoding the β' subunit of DNA-dependent RNA polymeraseof leuconostocs and performed a comparative phylogenetic analysis.The subdivision of the leuconostocs into three distinct lineageswas confirmed by the rpoC gene data, but no evidence that indicatedthat O. oeni is evolving at an extraordinary rate was found.If O. oeni is truly tachytelic, then fast-evolving phenomenawould be expected to occur throughout the whole genome, includingthis independent molecular chronometer.

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INT J SYST EVOL MICROBIOL	MICROBIOLOGY	J GEN VIROL
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				I. Dahllöf, H. Baillie, and S. Kjelleberg rpoB-Based Microbial Community Analysis Avoids Limitations Inherent in 16S rRNA Gene Intraspecies Heterogeneity Appl. Envir. Microbiol., August 1, 2000; 66(8): 3376 - 3380. [Abstract] [Full Text]