Genomics of the genus Bifidobacterium reveals species-specific adaptation to the glycan-rich gut environment

Christian Milani; Francesca Turroni; Sabrina Duranti; Gabriele Andrea Lugli; Leonardo Mancabelli; Chiara Ferrario; Douwe Van Sinderen; Marco Ventura

doi:10.1128/AEM.03500-15

Genomics of the genus Bifidobacterium reveals species-specific adaptation to the glycan-rich gut environment

Christian Milani
, Francesca Turroni
, Sabrina Duranti
, Gabriele Andrea Lugli
, Leonardo Mancabelli
, Chiara Ferrario
, Douwe Van Sinderen
, Marco Ventura

University of Parma

Research output: Contribution to journal › Article › peer-review

Abstract

Bifidobacteria represent one of the dominant microbial groups that occur in the gut of various animals, being particularly prevalent during the suckling period of humans and other mammals. Their ability to compete with other gut bacteria is largely attributed to their saccharolytic features. Comparative and functional genomic as well as transcriptomic analyses have revealed the genetic background that underpins the overall saccharolytic phenotype for each of the 47 bifidobacterial (sub)species representing the genus Bifidobacterium, while also generating insightful information regarding carbohydrate resource sharing and crossfeeding among bifidobacteria. The abundance of bifidobacterial saccharolytic features in human microbiomes supports the notion that metabolic accessibility to dietary and/or host-derived glycans is a potent evolutionary force that has shaped the bifidobacterial genome.

Original language	English
Pages (from-to)	980-991
Number of pages	12
Journal	Applied and Environmental Microbiology
Volume	82
Issue number	4
DOIs	https://doi.org/10.1128/AEM.03500-15
Publication status	Published - 2016

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title = "Genomics of the genus Bifidobacterium reveals species-specific adaptation to the glycan-rich gut environment",

abstract = "Bifidobacteria represent one of the dominant microbial groups that occur in the gut of various animals, being particularly prevalent during the suckling period of humans and other mammals. Their ability to compete with other gut bacteria is largely attributed to their saccharolytic features. Comparative and functional genomic as well as transcriptomic analyses have revealed the genetic background that underpins the overall saccharolytic phenotype for each of the 47 bifidobacterial (sub)species representing the genus Bifidobacterium, while also generating insightful information regarding carbohydrate resource sharing and crossfeeding among bifidobacteria. The abundance of bifidobacterial saccharolytic features in human microbiomes supports the notion that metabolic accessibility to dietary and/or host-derived glycans is a potent evolutionary force that has shaped the bifidobacterial genome.",

author = "Christian Milani and Francesca Turroni and Sabrina Duranti and Lugli, \{Gabriele Andrea\} and Leonardo Mancabelli and Chiara Ferrario and \{Van Sinderen\}, Douwe and Marco Ventura",

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AU - Milani, Christian

AU - Turroni, Francesca

AU - Duranti, Sabrina

AU - Lugli, Gabriele Andrea

AU - Mancabelli, Leonardo

AU - Ferrario, Chiara

AU - Van Sinderen, Douwe

AU - Ventura, Marco

PY - 2016

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AB - Bifidobacteria represent one of the dominant microbial groups that occur in the gut of various animals, being particularly prevalent during the suckling period of humans and other mammals. Their ability to compete with other gut bacteria is largely attributed to their saccharolytic features. Comparative and functional genomic as well as transcriptomic analyses have revealed the genetic background that underpins the overall saccharolytic phenotype for each of the 47 bifidobacterial (sub)species representing the genus Bifidobacterium, while also generating insightful information regarding carbohydrate resource sharing and crossfeeding among bifidobacteria. The abundance of bifidobacterial saccharolytic features in human microbiomes supports the notion that metabolic accessibility to dietary and/or host-derived glycans is a potent evolutionary force that has shaped the bifidobacterial genome.

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Genomics of the genus Bifidobacterium reveals species-specific adaptation to the glycan-rich gut environment

Abstract

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