Chemolithoautotrophic oxidation of thiosulfate, tetrathionate and thiocyanate by a novel rhizobacterium belonging to the genus Paracoccus.

Two tropical leguminous-rhizospheric strains, SST and JT 001, phylogenetically closest to Paracoccus thiocyanatus and Paracoccus pantotrophus, respectively, were isolated on reduced sulfur compounds as sole energy and electron sources. While SST had versatile chemolithotrophic abilities to oxidize thiosulfate, tetrathionate, thiocyanate, sulfide and elemental sulfur, JT 001 could oxidize thiosulfate, soluble sulfide, elemental sulfur and a relatively lesser amount of tetrathionate. Positive hybridization signals were detected for JT 001 but not SST, when their genomic DNAs were probed with DIG-labeled sulfur oxidation genes amplified from the chemolithotrophic alphaproteobacterium Pseudaminobacter salicylatoxidans KCT001. Though the new isolate SST exhibited high 16S rRNA gene sequence similarity with the monotypic species P. thiocyanatus, it was found to be considerably distinct from the latter in terms of phenotypic and chemotaxonomic characteristics. Polyphasic systematic analysis, however, confirmed that JT 001 was a strain of P. pantotrophus.

Phylogenetically diverse new sulfur chemolithotrophs of alpha-proteobacteria isolated from Indian soils.

Five facultative sulfur chemolithotrophs were isolated from soils to study the diversity of sulfur lithotrophy. Phenotypic characteristics, including sulfur lithotrophic properties and chemotaxonomic features of the isolates, were similar to those of the members of the colorless sulfur bacteria. 16S rDNA sequence analyses rendered placing the isolates to three distinct phylogenetic clusters of alpha-proteobacteria. Three isolates, AS001, AS002, and KCT002, were identified as members of the genus Paracoccus. The strains AS001 and AS002, having identical 16S-rDNA sequence, showed significant 16S rDNA sequence similarity (99.1%) to Paracoccus versutus. The strain KCT002 showed highest (98%) 16S rDNA sequence similarity to P. alcaliphilus and 96% similarity to the pair AS001 and AS002. Isolate KCT001 appeared to be closely related to Pseudaminobacter salicylatoxidans, although sulfur lithotrophy of P. salicylotoxidans is not known. The other isolate, TCK, showed almost identical 16S rDNA (99.9%) sequence with two recently described unclassified chemolithoautotrophic arsenite oxidizing strains. Physiological and chemotaxonomic characteristics and phylogenetic analyses of the five new strains emphasize the need of polyphasic bacterial taxonomy of sulfur lithotrophs.