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International Journal of Systematic and Evolutionary Microbiology, Vol 52, 2089-2094, Copyright © 2002 by Society for General Microbiology
A. R. Snyder, H. N. Williams, M. L. Baer, K. E. Walker and O. C. Stine
Marine Estuarine Environmental Sciences Program, University of Maryland, Baltimore, 666 West Baltimore Street, Baltimore, MD 21201, USA
Bdellovibrio-and-like organisms (BALO) are Gram-negative, predatory bacteria that inhabit terrestrial, freshwater and salt-water environments. Historically, these organisms have been classified together despite documented genetic differences between isolates. The genetic diversity of these microbes was assessed by sequencing the 16S rRNA gene. Primers that selectively amplify predator 16S rDNA, and not contaminating prey DNA, were utilized to study 17 freshwater and terrestrial and nine salt-water BALO isolates. When the 16S rDNA sequences were compared with representatives of other bacterial classes, 25 of the 26 BALO isolates clustered into two groups. One group, supported 100% by bootstrap analysis, included all of the Bdellovibrio bacteriovorus isolates. Each member of this group was isolated from either a freshwater or terrestrial source. The genetic distance between these isolates was less than 12%. The other group, supported 94% by bootstrap analysis, includes Bacteriovorax starrii, Bacteriovorax stolpii and the salt-water isolates. The salt-water isolates form a subgroup (83% by bootstrap) and differ within the subgroup by less than 11%. This observation implies that the salt-water isolates arose from Bacteriovorax progenitors. The difference between isolates in different clades is over 17%, a quantity similar to differences between bacterial species in different classes. However, both the Bdellovibrio and Bacteriovorax clades were closest to other representatives of the delta-Proteobacteria using maximum-likelihood. One freshwater isolate, James Island, was distinct from all other BALO (>19%), but differed from Pseudomonas putida, a member of the gamma-Proteobacteria, by only 3%. Thus, by 16S rDNA sequence analysis, the BALO appear to have multiple origins, contrary to the unified taxonomic grouping based on morphology and natural history. These observations are consistent with the need to review and revise the taxonomy of these organisms.
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