Functional metagenomic profiling of nine biomes

Microbial activities shape the biogeochemistry of the planet and macroorganism health. Determining the metabolic processes performed by microbes is important both for understanding and for manipulating ecosystems (for example, disruption of key processes that lead to disease, conservation of environ...

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Bibliographic Details
Published in:Nature 2008-04, Vol.452 (7187), p.629-632
Main Authors: Nilsson, Christina, Furlan, Mike, Thurber, Rebecca Vega, McDaniel, Lauren, Stevens, Rick, Li, Linlin, Brito, Beltran Rodriguez, Ruan, Yijun, Wegley, Linda, Paul, John, Brulc, Jennifer M, Breitbart, Mya, Nelson, Karen E, Desnues, Christelle, Dinsdale, Elizabeth A, Valentine, David L, White, Bryan A, Angly, Florent, Olson, Robert, Edwards, Robert A, Haynes, Matthew, Swan, Brandon K, Moran, Mary Ann, Hall, Dana, Rohwer, Forest
Format: Article
Language:English
Subjects:
Animal, plant and microbial ecology
Animals
Anthozoa - physiology
Archaea - genetics
Archaea - isolation & purification
Archaea - metabolism
Bacteria - genetics
Bacteria - isolation & purification
Bacteria - metabolism
Biochemistry
Biodiversity and Ecology
Biogeochemistry
Biological and medical sciences
Chemotaxis - genetics
Computational Biology
Culicidae - physiology
Ecology
Ecosystem
Environmental Sciences
Environmental services
Fishes - physiology
Fresh Water
Fundamental and applied biological sciences. Psychology
Gene Expression Profiling
Genome, Archaeal
Genome, Bacterial
Genome, Viral
Genomics
Geochemistry
Humanities and Social Sciences
letter
Life Sciences
Metabolism
Microbial activity
Microbial ecology
Microbiology
Microbiology and Parasitology
multidisciplinary
Plasticity
Science
Science (multidisciplinary)
Seawater
Viruses - genetics
Viruses - isolation & purification
Viruses - metabolism
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Summary:Microbial activities shape the biogeochemistry of the planet and macroorganism health. Determining the metabolic processes performed by microbes is important both for understanding and for manipulating ecosystems (for example, disruption of key processes that lead to disease, conservation of environmental services, and so on). Describing microbial function is hampered by the inability to culture most microbes and by high levels of genomic plasticity. Metagenomic approaches analyse microbial communities to determine the metabolic processes that are important for growth and survival in any given environment. Here we conduct a metagenomic comparison of almost 15 million sequences from 45 distinct microbiomes and, for the first time, 42 distinct viromes and show that there are strongly discriminatory metabolic profiles across environments. Most of the functional diversity was maintained in all of the communities, but the relative occurrence of metabolisms varied, and the differences between metagenomes predicted the biogeochemical conditions of each environment. The magnitude of the microbial metabolic capabilities encoded by the viromes was extensive, suggesting that they serve as a repository for storing and sharing genes among their microbial hosts and influence global evolutionary and metabolic processes.
ISSN:0028-0836
1476-4687
1476-4679
DOI:10.1038/nature06810