Abstract: | A systematic examination of a variety of isolates of the bacterial endoparasite Bdellovibrio has revealed extensive molecular diversity. The quantity of deoxyribonucleic acid (DNA) polynucleotide homology ranges from more than 90% among the isolates with DNA containing 50 to 51% guanine plus cytosine (GC) to undetectable levels between the 43% GC and 51% GC isolates. The two isolates with low GC-containing DNA (H-I Bdellovibrio A3.12 and UKi2) have only 16% DNA homology. H-I Bdellovibrio A3.12 and 109 have barely detectable ribosomal ribonucleic acid (rRNA) homology, whereas the homology approaches 100% among all the high GC isolates tested. Cases of high DNA/DNA and DNA/rRNA homologies are reflected in low dissimilarities of enzyme migration patterns in starch gel electrophoresis. The dissimilarities exhibited among the high GC Bdellovibrio isolates are as low as those previously reported for different Escherichia coli strains. The zymograms of H-I Bdellovibrio A3.12 and UKi2 are completely different from each other as well as from all other bdellovibrios (100% dissimilarity). Genome sizes determined for the representative isolates demonstrate three size ranges which coincide with group differences based on the above measurements. Enzyme assays reveal that all isolates possess a tricarboxylic acid cycle and most contain an alanine and glutamic dehydrogenase. We conclude that the use of bacterial endoparasitism as a defining trait has resulted in a molecularly diverse collection of isolates. It is recommended that the specific epitaph bacteriovorus be used only for the type specimen (Bdellovibrio 100 of Stolp and Starr, 1963) and for other related 50 to 51% GC isolates. The heterogeneity of the group warrants two new species. We designate Bdellovibrio A3.12 as the nomenclatural type of B. starrii sp. n. and Bdellovibrio UKi2 as the nomenclatural type of B. stolpii sp. n. |