Biogeography of the ecosystems of the healthy human body

Biogeography of the ecosystems of the healthy human body

BACKGROUND: Characterizing the biogeography of the microbiome of healthy humans is essential for understanding microbial associated diseases. Previous studies mainly focused on a single body habitat from a limited set of subjects. Here, we analyzed one of the largest microbiome datasets to date and...

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Published in:Genome biology Vol. 14; no. 1; p. R1
Main Authors: Zhou, Yanjiao, Gao, Hongyu, Mihindukulasuriya, Kathie A, La Rosa, Patricio S, Wylie, Kristine M, Vishnivetskaya, Tatiana, Podar, Mircea, Warner, Barb, Tarr, Phillip I, Nelson, David E, Fortenberry, J Dennis, Holland, Martin J, Burr, Sarah E, Shannon, William D, Sodergren, Erica, Weinstock, George M
Format: Journal Article
Language:English
Published: England Springer-Verlag 14-01-2013
BioMed Central Ltd
BioMed Central
Subjects:
60 APPLIED LIFE SCIENCES
adults
biodiversity
biogeography
data collection
habitats
Healthy Volunteers
human microbiome
Humans
Microbiota
Mouth - microbiology
nucleotide sequences
Organ Specificity
ribosomal RNA
RNA, Ribosomal, 16S - genetics
Skin - microbiology
species diversity
temporal stability
Urogenital System - microbiology
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Summary:BACKGROUND: Characterizing the biogeography of the microbiome of healthy humans is essential for understanding microbial associated diseases. Previous studies mainly focused on a single body habitat from a limited set of subjects. Here, we analyzed one of the largest microbiome datasets to date and generated a biogeographical map that annotates the biodiversity, spatial relationships, and temporal stability of 22 habitats from 279 healthy humans. RESULTS: We identified 929 genera from more than 24 million 16S rRNA gene sequences of 22 habitats, and we provide a baseline of inter-subject variation for healthy adults. The oral habitat has the most stable microbiota with the highest alpha diversity, while the skin and vaginal microbiota are less stable and show lower alpha diversity. The level of biodiversity in one habitat is independent of the biodiversity of other habitats in the same individual. The abundances of a given genus at a body site in which it dominates do not correlate with the abundances at body sites where it is not dominant. Additionally, we observed the human microbiota exhibit both cosmopolitan and endemic features. Finally, comparing datasets of different projects revealed a project-based clustering pattern, emphasizing the significance of standardization of metagenomic studies. CONCLUSIONS: The data presented here extend the definition of the human microbiome by providing a more complete and accurate picture of human microbiome biogeography, addressing questions best answered by a large dataset of subjects and body sites that are deeply sampled by sequencing.
Bibliography:http://dx.doi.org/10.1186/gb-2013-14-1-r1
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SourceType-Scholarly Journals-1
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AC05-00OR22725; U54HG004968; 1R01HG004857; 079246/Z/06/Z; UH3 AI083265; 5P30 DK052574; UH3 AI094641
Wellcome Trust
National Institutes of Health (NIH)
USDOE Office of Science (SC), Biological and Environmental Research (BER)
Genome Institute at Washington University
ISSN:1465-6906
1474-760X
1465-6914
1474-760X
DOI:10.1186/gb-2013-14-1-r1