4.6 Article

Unraveling the Genomic Potential of the Thermophilic Bacterium Anoxybacillus flavithermus from an Antarctic Geothermal Environment

Journal

MICROORGANISMS
Volume 10, Issue 8, Pages -

Publisher

MDPI
DOI: 10.3390/microorganisms10081673

Keywords

Anoxybacillus; comparative genomics; phylogeny; potential metabolic functions; antarctica; polar volcano

Categories

Funding

  1. National Council for Research and Development (CNPq)
  2. National Council for the Improvement of Higher Education (CAPES)
  3. KAUST Baseline Grant [BAS/1/1096-01-01]

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This study provides insights into the genomic features and phylogenomics of Anoxybacillus strains inhabiting the Antarctic thermophilic ecosystem. The strains showed high genomic similarity to each other and to A. flavithermus, and possessed various genes related to resistance, metabolism, and temperature adaptation. Moreover, prediction of glycosyl hydrolase enzyme-encoding genes, secondary metabolites, and prophage sequences suggests their potential for biotechnological applications.
Antarctica is a mosaic of extremes. It harbors active polar volcanoes, such as Deception Island, a marine stratovolcano having notable temperature gradients over very short distances, with the temperature reaching up to 100 degrees C near the fumaroles and subzero temperatures being noted in the glaciers. From the sediments of Deception Island, we isolated representatives of the genus Anoxybacillus, a widely spread genus that is mainly encountered in thermophilic environments. However, the phylogeny of this genus and its adaptive mechanisms in the geothermal sites of cold environments remain unknown. To the best of our knowledge, this is the first study to unravel the genomic features and provide insights into the phylogenomics and metabolic potential of members of the genus Anoxybacillus inhabiting the Antarctic thermophilic ecosystem. Here, we report the genome sequencing data of seven A. flavithermus strains isolated from two geothermal sites on Deception Island, Antarctic Peninsula. Their genomes were approximately 3.0 Mb in size, had a G + C ratio of 42%, and were predicted to encode 3500 proteins on average. We observed that the strains were phylogenomically closest to each other (Average Nucleotide Identity (ANI) > 98%) and to A. flavithermus (ANI 95%). In silico genomic analysis revealed 15 resistance and metabolic islands, as well as genes related to genome stabilization, DNA repair systems against UV radiation threats, temperature adaptation, heat- and cold-shock proteins (Csps), and resistance to alkaline conditions. Remarkably, glycosyl hydrolase enzyme-encoding genes, secondary metabolites, and prophage sequences were predicted, revealing metabolic and cellular capabilities for potential biotechnological applications.

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