Özet:

Microorganisms have the capability to produce antimicrobial compounds through secondary metabolism, which are not essential within their natural environments, but have been found to have many effects on the ecosystem. Antimicrobial production genes have been identified in a wide range of microorganisms; however, research into natural ecosystems has historically been limited to continental soil environments. Antimicrobial production research has been limited in the deep continental subsurface and marine environments, especially deeply buried marine sediments. We analyzed 466 high-quality metagenome assembled genomes (MAGs) collected from continental and marine subsurface environments through the Deep Carbon Observatory’s Census of Deep Life. A total of 383 MAGs contained biosynthetic gene clusters, namely Type I and Type III polyketide synthase genes, non-ribosomal peptide synthetase genes, and other unspecified ribosomally synthesized and post-translationally modified peptide products. All of these genes were found across continental mines, subglacial lakes, hotsprings, and serpentinizing environments. These environments have previously not been investigated via metagenomics for antimicrobial gene diversity, which may be produced for competition or communication purposes. All other biosynthetic genes identified in this study were less than 50% similar to reference biosynthesis genes indicating the novelty of secondary metabolism in subsurface microorganisms. The majority of predicted antimicrobial products were found to be produced exergonically, which could indicate microbial populations use energy-conserving mechanisms to produce compounds that could offer a competitive advantage.

Anahtar Kelimeler: