Genomic features of “Candidatus Venteria ishoeyi”, a new sulfur-oxidizing macrobacterium from the Humboldt Sulfuretum off Chile

The Humboldt Sulfuretum (HS), in the productive Humboldt Eastern Boundary Current Upwelling Ecosystem, extends under the hypoxic waters of the Peru-Chile Undercurrent ( ca . 6°S and ca . 36°S). Studies show that primeval sulfuretums held diverse prokaryotic life, and, while rare today, still sustain species-rich giant sulfur-oxidizing bacterial communities. We here present the genomic features of a new bacteria of the HS, “ Candidatus Venteria ishoeyi” (“ Ca . V. ishoeyi”) in the family Thiotrichaceae .Three identical filaments were micro-manipulated from reduced sediments collected off central Chile; their DNA was extracted, amplified, and sequenced by a Roche 454 GS FLX platform. Using three sequenced libraries and through de novo genome assembly, a draft genome of 5.7 Mbp, 495 scaffolds, and a N50 of 70 kbp, was obtained. The 16S rRNA gene phylogenetic analysis showed that “ Ca . V. ishoeyi” is related to non-vacuolate forms presently known as Beggiatoa or Beggiatoa -like forms. The complete set of genes involved in respiratory nitrate-reduction to dinitrogen was identified in “ Ca . V. ishoeyi”; including genes likely leading to ammonification. As expected, the sulfur-oxidation pathway reported for other sulfur-oxidizing bacteria were deduced and also, key inorganic and organic carbon acquisition related genes were identified. Unexpectedly, the genome of “ Ca . V. ishoeyi” contained numerous CRISPR repeats and an I-F CRISPR-Cas type system gene coding array. Findings further show that, as a member of an eons-old marine ecosystem, “ Ca . V. ishoeyi” contains the needed metabolic plasticity for life in an increasingly oxygenated and variable ocean.