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      Group Living and Male Dispersal Predict the Core Gut Microbiome in Wild Baboons

      1 , 1 , 2 , 3 , 2 , 3 , 4 , 1
      Integrative and Comparative Biology
      Oxford University Press (OUP)

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          Abstract

          <p id="d4568699e171"> The mammalian gut microbiome plays a profound role in the physiology, metabolism, and overall health of its host. However, biologists have only a nascent understanding of the forces that drive inter-individual heterogeneity in gut microbial composition, especially the role of host social environment. Here we used 178 samples from 78 wild yellow baboons ( <i>Papio cynocephalus</i>) living in two social groups to test how host social context, including group living, social interactions within groups, and transfer between social groups (e.g., dispersal) predict inter-individual variation in gut microbial alpha and beta diversity. We also tested whether social effects differed for prevalent “core” gut microbial taxa, which are thought to provide primary functions to hosts, versus rare “non-core” microbes, which may represent relatively transient environmental acquisitions. Confirming prior studies, we found that each social group harbored a distinct gut microbial community. These differences included both non-core and core gut microbial taxa, suggesting that these effects are not solely driven by recent gut microbial exposures. Within social groups, close grooming partners had more similar core microbiomes, but not non-core microbiomes, than individuals who rarely groomed each other, even controlling for kinship and diet similarity between grooming partners. Finally, in support of the idea that the gut microbiome can be altered by current social context, we found that the longer an immigrant male had lived in a given social group, the more closely his gut microbiome resembled the gut microbiomes of the group’s long-term residents. Together, these results reveal the importance of a host’s social context in shaping the gut microbiome and shed new light onto the microbiome-related consequences of male dispersal. </p>

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          Most cited references39

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          Global patterns of 16S rRNA diversity at a depth of millions of sequences per sample.

          The ongoing revolution in high-throughput sequencing continues to democratize the ability of small groups of investigators to map the microbial component of the biosphere. In particular, the coevolution of new sequencing platforms and new software tools allows data acquisition and analysis on an unprecedented scale. Here we report the next stage in this coevolutionary arms race, using the Illumina GAIIx platform to sequence a diverse array of 25 environmental samples and three known "mock communities" at a depth averaging 3.1 million reads per sample. We demonstrate excellent consistency in taxonomic recovery and recapture diversity patterns that were previously reported on the basis of metaanalysis of many studies from the literature (notably, the saline/nonsaline split in environmental samples and the split between host-associated and free-living communities). We also demonstrate that 2,000 Illumina single-end reads are sufficient to recapture the same relationships among samples that we observe with the full dataset. The results thus open up the possibility of conducting large-scale studies analyzing thousands of samples simultaneously to survey microbial communities at an unprecedented spatial and temporal resolution.
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            Beyond the Venn diagram: the hunt for a core microbiome.

            Discovering a core microbiome is important for understanding the stable, consistent components across complex microbial assemblages. A core is typically defined as the suite of members shared among microbial consortia from similar habitats, and is represented by the overlapping areas of circles in Venn diagrams, in which each circle contains the membership of the sample or habitats being compared. Ecological insight into core microbiomes can be enriched by 'omics approaches that assess gene expression, thereby extending the concept of the core beyond taxonomically defined membership to community function and behaviour. Parameters defined by traditional ecology theory, such as composition, phylogeny, persistence and connectivity, will also create a more complex portrait of the core microbiome and advance understanding of the role of key microorganisms and functions within and across ecosystems. © 2011 Society for Applied Microbiology and Blackwell Publishing Ltd.
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              Cospeciation of gut microbiota with hominids.

              The evolutionary origins of the bacterial lineages that populate the human gut are unknown. Here we show that multiple lineages of the predominant bacterial taxa in the gut arose via cospeciation with humans, chimpanzees, bonobos, and gorillas over the past 15 million years. Analyses of strain-level bacterial diversity within hominid gut microbiomes revealed that clades of Bacteroidaceae and Bifidobacteriaceae have been maintained exclusively within host lineages across hundreds of thousands of host generations. Divergence times of these cospeciating gut bacteria are congruent with those of hominids, indicating that nuclear, mitochondrial, and gut bacterial genomes diversified in concert during hominid evolution. This study identifies human gut bacteria descended from ancient symbionts that speciated simultaneously with humans and the African apes.
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                Author and article information

                Journal
                Integrative and Comparative Biology
                Oxford University Press (OUP)
                1540-7063
                1557-7023
                October 2017
                October 01 2017
                September 29 2017
                October 2017
                October 01 2017
                September 29 2017
                : 57
                : 4
                : 770-785
                Affiliations
                [1 ] Department of Biological Sciences, University of Notre Dame, Notre Dame, IN 46556, USA
                [2 ] Department of Biology, Duke University, Durham, NC 27708, USA
                [3 ] Department of Evolutionary Anthropology, Duke University, Durham, NC 27708, USA
                [4 ] Duke Population Research Institute, Duke University, Durham, NC 27708, USA
                Article
                10.1093/icb/icx046
                5886331
                29048537
                e8a2d982-a683-4a8e-a816-8fb02fdb26de
                © 2017
                History

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