Microbial gene expression in Guaymas Basin subsurface sediments responds to hydrothermal stress and energy limitation

Analyses of gene expression of subsurface bacteria and archaea provide insights into their physiological adaptations to in situ subsurface conditions. We examined patterns of expressed genes in hydrothermally heated subseafloor sediments with distinct geochemical and thermal regimes in Guaymas Basin, Gulf of California, Mexico. RNA recovery and cell counts declined with sediment depth, however, we obtained metatranscriptomes from eight sites at depths spanning between 0.8 and 101.9 m below seafloor. We describe the metabolic potential of sediment microorganisms, and discuss expressed genes involved in tRNA, mRNA, and rRNA modifications that enable physiological flexibility of bacteria and archaea in the hydrothermal subsurface. Microbial taxa in hydrothermally influenced settings like Guaymas Basin may particularly depend on these catalytic RNA functions since they modulate the activity of cells under elevated temperatures and steep geochemical gradients. Expressed genes for DNA repair, protein maintenance and circadian rhythm were also identified. The concerted interaction of many of these genes may be crucial for microorganisms to survive and to thrive in the Guaymas Basin subsurface biosphere.

Automated summary

Analyses of gene expression in hydrothermally heated subseafloor sediments in Guaymas Basin provide insights into physiological adaptations and metabolic potential of subsurface bacteria and archaea. The study found that RNA recovery and cell counts declined with sediment depth, but metatranscriptomes were obtained from multiple depths. The study also identified expressed genes involved in RNA modifications, DNA repair, protein maintenance, and circadian rhythm, which are crucial for microorganisms to survive and thrive in the hydrothermal subsurface.