Analysis of the gut microbiota in the old order Amish and its relation to the metabolic syndrome.

Obesity has been linked to the human gut microbiota; however, the contribution of gut bacterial species to the obese phenotype remains controversial because of conflicting results from studies in different populations. To explore the possible dysbiosis of gut microbiota in obesity and its metabolic...

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Autores principales: Margaret L Zupancic, Brandi L Cantarel, Zhenqiu Liu, Elliott F Drabek, Kathleen A Ryan, Shana Cirimotich, Cheron Jones, Rob Knight, William A Walters, Daniel Knights, Emmanuel F Mongodin, Richard B Horenstein, Braxton D Mitchell, Nanette Steinle, Soren Snitker, Alan R Shuldiner, Claire M Fraser
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Publicado: Public Library of Science (PLoS) 2012
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Acceso en línea:https://doaj.org/article/3b82d425aad046e0955981e35c11d723
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spelling oai:doaj.org-article:3b82d425aad046e0955981e35c11d7232021-11-18T07:08:42ZAnalysis of the gut microbiota in the old order Amish and its relation to the metabolic syndrome.1932-620310.1371/journal.pone.0043052https://doaj.org/article/3b82d425aad046e0955981e35c11d7232012-01-01T00:00:00Zhttps://www.ncbi.nlm.nih.gov/pmc/articles/pmid/22905200/?tool=EBIhttps://doaj.org/toc/1932-6203Obesity has been linked to the human gut microbiota; however, the contribution of gut bacterial species to the obese phenotype remains controversial because of conflicting results from studies in different populations. To explore the possible dysbiosis of gut microbiota in obesity and its metabolic complications, we studied men and women over a range of body mass indices from the Old Order Amish sect, a culturally homogeneous Caucasian population of Central European ancestry. We characterized the gut microbiota in 310 subjects by deep pyrosequencing of bar-coded PCR amplicons from the V1-V3 region of the 16S rRNA gene. Three communities of interacting bacteria were identified in the gut microbiota, analogous to previously identified gut enterotypes. Neither BMI nor any metabolic syndrome trait was associated with a particular gut community. Network analysis identified twenty-two bacterial species and four OTUs that were either positively or inversely correlated with metabolic syndrome traits, suggesting that certain members of the gut microbiota may play a role in these metabolic derangements.Margaret L ZupancicBrandi L CantarelZhenqiu LiuElliott F DrabekKathleen A RyanShana CirimotichCheron JonesRob KnightWilliam A WaltersDaniel KnightsEmmanuel F MongodinRichard B HorensteinBraxton D MitchellNanette SteinleSoren SnitkerAlan R ShuldinerClaire M FraserPublic Library of Science (PLoS)articleMedicineRScienceQENPLoS ONE, Vol 7, Iss 8, p e43052 (2012)
institution DOAJ
collection DOAJ
language EN
topic Medicine
R
Science
Q
spellingShingle Medicine
R
Science
Q
Margaret L Zupancic
Brandi L Cantarel
Zhenqiu Liu
Elliott F Drabek
Kathleen A Ryan
Shana Cirimotich
Cheron Jones
Rob Knight
William A Walters
Daniel Knights
Emmanuel F Mongodin
Richard B Horenstein
Braxton D Mitchell
Nanette Steinle
Soren Snitker
Alan R Shuldiner
Claire M Fraser
Analysis of the gut microbiota in the old order Amish and its relation to the metabolic syndrome.
description Obesity has been linked to the human gut microbiota; however, the contribution of gut bacterial species to the obese phenotype remains controversial because of conflicting results from studies in different populations. To explore the possible dysbiosis of gut microbiota in obesity and its metabolic complications, we studied men and women over a range of body mass indices from the Old Order Amish sect, a culturally homogeneous Caucasian population of Central European ancestry. We characterized the gut microbiota in 310 subjects by deep pyrosequencing of bar-coded PCR amplicons from the V1-V3 region of the 16S rRNA gene. Three communities of interacting bacteria were identified in the gut microbiota, analogous to previously identified gut enterotypes. Neither BMI nor any metabolic syndrome trait was associated with a particular gut community. Network analysis identified twenty-two bacterial species and four OTUs that were either positively or inversely correlated with metabolic syndrome traits, suggesting that certain members of the gut microbiota may play a role in these metabolic derangements.
format article
author Margaret L Zupancic
Brandi L Cantarel
Zhenqiu Liu
Elliott F Drabek
Kathleen A Ryan
Shana Cirimotich
Cheron Jones
Rob Knight
William A Walters
Daniel Knights
Emmanuel F Mongodin
Richard B Horenstein
Braxton D Mitchell
Nanette Steinle
Soren Snitker
Alan R Shuldiner
Claire M Fraser
author_facet Margaret L Zupancic
Brandi L Cantarel
Zhenqiu Liu
Elliott F Drabek
Kathleen A Ryan
Shana Cirimotich
Cheron Jones
Rob Knight
William A Walters
Daniel Knights
Emmanuel F Mongodin
Richard B Horenstein
Braxton D Mitchell
Nanette Steinle
Soren Snitker
Alan R Shuldiner
Claire M Fraser
author_sort Margaret L Zupancic
title Analysis of the gut microbiota in the old order Amish and its relation to the metabolic syndrome.
title_short Analysis of the gut microbiota in the old order Amish and its relation to the metabolic syndrome.
title_full Analysis of the gut microbiota in the old order Amish and its relation to the metabolic syndrome.
title_fullStr Analysis of the gut microbiota in the old order Amish and its relation to the metabolic syndrome.
title_full_unstemmed Analysis of the gut microbiota in the old order Amish and its relation to the metabolic syndrome.
title_sort analysis of the gut microbiota in the old order amish and its relation to the metabolic syndrome.
publisher Public Library of Science (PLoS)
publishDate 2012
url https://doaj.org/article/3b82d425aad046e0955981e35c11d723
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