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Metagenomics is the study of the metagenome—the collective genome of microorganisms from an environmental sample—to provide information on the microbial diversity and ecology of a specific environment. Shotgun metagenomics refers to the approach of shearing DNA extracted from the environmental sample and sequencing the small fragments.
Metatranscriptomic data from more than 2,000 mosquitoes of 81 species show that the composition of mosquito viral communities is determined more by host phylogeny than by climate and land-use factors, which will help to inform arbovirus surveillance.
Identifying the metabolic interactions that underlie microbial communities is challenging. Here, the authors combine Tara Oceans -omics data with co-activity networks and genome-scale metabolic models to predict biotic interactions among planktonic prokaryotes in the upper ocean.
The long-read metagenome of rice phyllosphere microbiome shows novel complete chromosomes, plasmids, bacteriophages, and novel bacterial species. Notably one complete chromosome belongs to the difficult-to-culture bacterium CandidatusSaccharibacteria.
Here, Muller et al. introduce MintTea, a method for analyzing multi-omic microbiome data and identifying disease-associated modules comprising mixed sets of features that collectively shift in disease, offering insights into microbiome-disease interactions.
A meta-transcriptomic analysis of the viromes of 2,438 mosquitoes of 81 species from across China identifies geographic hotspots of mosquito virus diversity, links between mosquito virome composition and host phylogeny, and a suggestion of long-distance mosquito dispersal.
Metatranscriptomic data from more than 2,000 mosquitoes of 81 species show that the composition of mosquito viral communities is determined more by host phylogeny than by climate and land-use factors, which will help to inform arbovirus surveillance.
This Genome Watch highlights different tools and strategies used to enhance the quality of metagenome-assembled genomes (MAGs) generated in microbiome studies.
An experiment that simulates rainfall events in dry soils reveals that virus members of the soil microbiome maintain the turnover of prokaryotic host communities through a ‘cull-the-winner’ model.
Modern high-throughput metagenomics is producing hundreds of thousands of metagenome-assembled genomes (MAGs), which is overwhelming traditional sequence-similarity search methods. We present a computational method, skani, that efficiently compares MAGs on a terabyte scale while being robust to the inherent noise in MAGs, enabling larger and more accurate analyses.
In this Journal Club, Anja Spang discusses the discovery of nanosized archaea, transforming our knowledge of archaeal phylogeny and shedding light on their roles in ecology and evolution.