Project description:Asterionellopsis glacialis strain A3 microbial consortium

Project description:A3 microbial consortium Metagenome

Project description:Re-assembled SAR202 MAGs from TARA Oceans Metagenomes

Project description:Microbial communities that degrade lignocellulosic biomass are typified by high levels of species- and strain-level complexity, as well as synergistic interactions between both cellulolytic and non-cellulolytic microorganisms. Here we deconvoluted a highly efficient cellulose-degrading and methanogenic consortium (SEM1b) that is co-dominated by Clostridium (Ruminiclostridium) thermocellum and multiple heterogenic strains affiliated to C. proteolyticus. A time-series analysis was performed over the entire lifetime span of the microbial community and comprised of metagenomic, metatranscriptomic, metabolomics, metaproteomic and 16S rRNA gene analysis for 8 time points, in triplicate. Metagenomic analysis of SEM1b recovered metagenome-assembled genomes (MAGs) for each constituent population, whereas in parallel two novel strains of C. proteolyticus were isolated and sequenced. Both the recovered MAGs and the isolated strains were used as a database for further functional meta-omics. Absolute quantitative metatranscriptomics was performed thanks the spike-in of an in vitro transcribed RNA as an internal standard and label-free quantification was used for the metaproteomic analysis. The present dataset has been used for several publications. The first aim of the project was to characterize the interactions between uncultured populations in a lignocellulose-degrading community. Furthermore, because of the in-depth multi-omics characterization of the community, the dataset was used to develop new approaches for meta-omics integration as well as to assess the protein-to-RNA ratio of multiple microbial populations simultaneously. Modifications of multi-omics toolkits allowed us to assess the linearity between transcriptome and proteome for each population over time and reveal deeper functional-related trends and integrative co-dependent metabolisms that drive the overall phenotype of microbial communities.

Project description:Marine microbial communities from Saanich Inlet, British Columbia, Canada - FGYG-81-A3 metagenome

Project description:PAUC43f MAGs from Mar Menor sediments (Spain)

Project description:Asterionellopsis glacialis strain:A3 Genome sequencing and assembly

Project description:Marine microbial communities from the Costa Rica Dome - N26 A3-2 mini metaG metagenome

Project description:Marine microbial communities from the Costa Rica Dome - N26 A3-1 mini metaG metagenome

Project description:GL-1248 core's MAGs from western equatorial Atlantic