Habitat generalists or specialists, insights from comparative genomic analyses of Thermosipho lineages

Abstract

AbstractThermosipho species inhabit various extreme environments such as marine hydrothermal vents, petroleum reservoirs and terrestrial hot springs. A 16S rRNA phylogeny of available Thermosipho spp. sequences suggested habitat specialists adapted to living in hydrothermal vents only, and habitat generalists inhabiting oil reservoirs, hydrothermal vents and hotsprings. Comparative genomics and recombination analysis of the genomes of 15 Thermosipho isolates separated them into three species with different habitat distributions, the widely distributed T. africanus and the more specialized, T. melanesiensis and T. affectus. The three Thermosipho species can also be differentiated on the basis of genome content. For instance the T. africanus genomes had the largest repertoire of carbohydrate metabolism, which could explain why these isolates were obtained from ecologically more divergent habitats. The three species also show different capacities for defense against foreign DNA. T. melanesiensis and T. africanus both had a complete RM system, while this was missing in T. affectus. These observations also correlated with Pacbio sequencing, which revealed a methylated T. melanesiensis BI431 genome, while no methylation was detected among two T. affectus isolates. All the genomes carry CRISPR arrays accompanied by more or less complete CRISPR-cas systems. Interestingly, some isolates of both T. melanesiensis and T. africanus carry integrated prophage elements, with spacers matching these in their CRISPR arrays. Taken together, the comparative genomic analyses of Thermosipho spp. revealed genetic variation allowing habitat differentiation within the genus as well as differentiation with respect to invading mobile DNA that is present in subsurface ecosystems.