RT Journal Article SR Electronic T1 Novel microbial syntrophies identified by longitudinal metagenomics JF bioRxiv FD Cold Spring Harbor Laboratory SP 2021.07.05.451125 DO 10.1101/2021.07.05.451125 A1 Sebastien Raguideau A1 Anna Trego A1 Fred Farrell A1 Gavin Collins A1 Christopher Quince A1 Orkun S Soyer YR 2021 UL http://biorxiv.org/content/early/2021/07/05/2021.07.05.451125.abstract AB Identifying species interactions in a microbial community and how this relates to community function is a key challenge. Towards addressing this challenge, we present here an extensive genome-resolved, longitudinal dataset and associated metadata. We collected weekly samples of microbial communities and recorded operating conditions from industrial methane producing anaerobic digestion reactors for a year. This allowed us to recover 2240 dereplicated metagenome assembled genomes (dMAGs), together with their coverage dynamics and functional annotations from which functional traits were inferred. Of these dMAGs, 1910 were novel species, with 22 representing novel orders and classes. Methanogenic communities are expected to be strongly structured by syntrophic and other associations between the methanogens and syntrophs that produce their substrates. We identified 450 potential syntrophic dMAGs by searching for pairs of methanogenic and non-methanogenic dMAGs that had highly correlated time-series. Genomes of potential syntrophs were enriched for oxidoreductases and sugar transport genes and there was a strong taxonomic signal in their associations with methanogens. Of particular note, we found that Bathyarchaeiea associated specifically with methanogens from the Thermoplasmata, and Thermococci classes. Same syntrophic associations were only rarely observed across multiple reactors, suggesting that syntrophies might be facultative, with particular strains within a species forming syntrophic associations only sometimes and not necessarily always with the same methanogenic partner. The presented results show that longitudinal metagenomics is a highly valuable approach for identifying species and their interactions in microbial communities.One Sentence Summary Longitudinal study of microbial communities identifies novel species and predicts their interactions and role in community function.Competing Interest StatementThe authors have declared no competing interest.