Please use this identifier to cite or link to this item: https://doi.org/10.3389/fmicb.2018.00048
Title: Spatial heterogeneity and co-occurrence of mucosal and luminal microbiome across swine intestinal tract
Authors: Zhang L.
Wu W.
Lee Y.-K. 
Xie J.
Zhang H.
Keywords: acetic acid
bile acid
butyric acid
glycine
isobutyric acid
isovaleric acid
propionic acid
taurine
valeric acid
Acidaminococcaceae
Actinobacteria
amino acid metabolism
Article
Bacillaceae
bacterial microbiome
bacterium
Bacteroidetes
Campylobacteraceae
carbohydrate metabolism
Caulobacteraceae
cecum
Clostridiaceae
colon flora
community structure
cyanobacterium
Desulfovibronaceae
energy metabolism
Enterobacteriaceae
Enterococcaceae
Erysipelotrichaceae
Faecalibacterium
Firmicutes
Gemmatimonadetes
gene function
Helicobacteraceae
ileum
intestine flora
Lachnospiraceae
Lactobacillaceae
large intestine
Lawsonia (bacterium)
lipid metabolism
membrane transport
microbial diversity
Mycoplasmataceae
nonhuman
Peptostreptococcaceae
pig
Planctomycetes
Prevotella
Prevotellaceae
Proteobacteria
Pseudomonadaceae
Ruminococcaceae
Streptococcaceae
Veillonellaceae
Xanthomonadaceae
Issue Date: 2018
Citation: Zhang L., Wu W., Lee Y.-K., Xie J., Zhang H. (2018). Spatial heterogeneity and co-occurrence of mucosal and luminal microbiome across swine intestinal tract. Frontiers in Microbiology 9 (JAN) : 48. ScholarBank@NUS Repository. https://doi.org/10.3389/fmicb.2018.00048
Abstract: Pigs are one of the most important economic livestock. Gut microbiota is not only critical to the health but also the production efficiency of pigs. Manipulating gut microbiota relies on the full view of gut microbiome and the understanding of drive forces shaping microbial communities. 16s rDNA sequencing was used to profile microbiota along the longitudinal and radical axes to obtain the topographical map of microbiome in different intestinal compartments in young pigs. Alpha and beta-diversities revealed distinct differences in microbial compositions between the distal ileum and cecum and colon, as well as between the lumen and mucosa. Firmicutes and Proteobacteria dominated in the ileum, constituting 95 and 80% of the luminal and mucosa-attached microbiome. Transitioning from the small intestine to the large intestine, luminal Bacteroidetes increased from 1.69 to 45.98% in the cecum and 40.09% in the colon, while mucosal Bacteroidetes raised from 9 to 35.36% and 27.96%. Concurrently, luminal Firmicutes and Proteobacteria and mucosal-attached Proteobacteria remarkably decreased. By co-occurrence network analyses, Prevotellaceae, Ruminococcaceae, Lachnospiraceae and Veillonellaceae were recognized as the central nodes of luminal microbial network, and Prevotellaceae and Enterobacteriaceae, Caulobacteraceae, Enterococcaceae, Xanthomonadaceae, Pseudomonadaceae were identified as mucosal central nodes. Co-abundance was uncovered among Prevotellaceae, Lachnospiraceae, and Veillonellaceae in the luminal and mucosal microbiome, while opportunistic pathogens from ?-Proteobacteria in the mucosa. Strong co-exclusion was shown between Enterobacteriaceae with Prevotellaceae-centered microbial groups in the lumen. Redundancy analysis found bile acids and short chain fatty acids explained 37.1 and 41% of variations in the luminal microbial composition, respectively. Primary bile acid, taurine- and glycine- conjugated bile acids were positively correlated with Lactobacillaceae, Enterobacteriaceae, Clostridiaceae_1, Peptostreptococcaceae, whereas secondary bile acids, acetate, propionate, butyrate, and valerate were positively correlated with Prevotellaceae, Acidaminococcaceae, Ruminococcaceae, Lachnospiraceae, Desulfovibronaceae, Veillonellaceae. Functional analyses demonstrated that Prevotella, Veillonellaceae, Lachnospiraceae, and Ruminococcaceae were positively correlated with gene functions related to amino acids, energy, cofactors and vitamins metabolism, which are indispensable for the hosts. These results suggested site specific colonization and co-occurrence of swine gut microbiome closely relate to the microenvironment in each niche. Interactions of core gut microbiome greatly contributed to metabolism and/or immunity in the swine intestine. © 2018 Zhang, Wu, Lee, Xie and Zhang.
Source Title: Frontiers in Microbiology
URI: https://scholarbank.nus.edu.sg/handle/10635/173743
ISSN: 1664302X
DOI: 10.3389/fmicb.2018.00048
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