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The genome sequence of Bifidobacterium longum reflects its adaptation to the human gastrointestinal tract

Item Type:Article
Title:The genome sequence of Bifidobacterium longum reflects its adaptation to the human gastrointestinal tract
Creators Name:Schell, M.A. and Karmirantzou, M. and Snel, B. and Vilanova, D. and Berger, B. and Pessi, G. and Zwahlen, M.C. and Desiere, F. and Bork, P. and Delley, M. and Pridmore, R.D. and Arigoni, F.
Abstract:Bifidobacteria are Gram-positive prokaryotes that naturally colonize the human gastrointestinal tract (GIT) and vagina. Although not numerically dominant in the complex intestinal microflora, they are considered as key commensals that promote a healthy GIT. We determined the 2.26-Mb genome sequence of an infant-derived strain of Bifidobacterium longum, and identified 1,730 possible coding sequences organized in a 60%-GC circular chromosome. Bioinformatic analysis revealed several physiological traits that could partially explain the successful adaptation of this bacteria to the colon. An unexpectedly large number of the predicted proteins appeared to be specialized for catabolism of a variety of oligosaccharides, some possibly released by rare or novel glycosyl hydrolases acting on "nondigestible" plant polymers or host-derived glycoproteins and glycoconjugates. This ability to scavenge from a large variety of nutrients likely contributes to the competitiveness and persistence of bifidobacteria in the colon. Many genes for oligosaccharide metabolism were found in self-regulated modules that appear to have arisen in part from gene duplication or horizontal acquisition. Complete pathways for all amino acids, nucleotides, and some key vitamins were identified; however, routes for Asp and Cys were atypical. More importantly, genome analysis provided insights into the reciprocal interactions of bifidobacteria with their hosts. We identified polypeptides that showed homology to most major proteins needed for production of glycoprotein-binding fimbriae, structures that could possibly be important for adhesion and persistence in the GIT. We also found a eukaryotic-type serine protease inhibitor (serpin) possibly involved in the reported immunomodulatory activity of bifidobacteria.
Keywords:Physiological Adaptation, Anaerobiosis, Base Sequence, Bifidobacterium, Carbohydrate Metabolism, Colon, Bacterial DNA, Digestive System, Energy Metabolism, Bacterial Gene Expression Regulation, Horizontal Gene Transfer, Bacterial Genome, Humans, Genetic Transcription
Source:Proceedings of the National Academy of Sciences of the United States of America
ISSN:0027-8424
Publisher:National Academy of Sciences (U.S.A.)
Volume:99
Number:22
Page Range:14422-14427
Date:29 October 2002
Official Publication:https://doi.org/10.1073/pnas.212527599
PubMed:View item in PubMed

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