Molecular Mechanism by which Prominent Human Gut Bacteroidetes Utilize Mixed-Linkage Beta-Glucans, Major Health-Promoting Cereal Polysaccharides

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Molecular Mechanism by which Prominent Human Gut Bacteroidetes Utilize Mixed-Linkage Beta-Glucans, Major Health-Promoting Cereal Polysaccharides

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2017 nî lūn-bûn

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2017年の論文

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2017年論文

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2017年論文

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2017年論文

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2017年論文

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2017年论文

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Molecular Mechanism by which P ...... omoting Cereal Polysaccharides

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Molecular Mechanism by which P ...... omoting Cereal Polysaccharides

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Molecular Mechanism by which P ...... omoting Cereal Polysaccharides

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Molecular Mechanism by which P ...... omoting Cereal Polysaccharides

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Molecular Mechanism by which P ...... omoting Cereal Polysaccharides

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Molecular Mechanism by which P ...... omoting Cereal Polysaccharides

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J.CELREP.2017.09.049

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Cell Reports

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Molecular Mechanism by which P ...... omoting Cereal Polysaccharides

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Eric C Martens

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Glyn R Hemsworth

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Guillaume Déjean

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Harry Brumer

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Karthik Urs

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Kazune Tamura

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Namrata Jain

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Nicholas A Pudlo

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Theresa E Rogers

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P2507

Molecular Mechanism by which Prominent Human Gut Bacteroidetes Utilize Mixed-Linkage Beta-Glucans, Major Health-Promoting Cereal Polysaccharides.

P2860

Role of the gut microbiota in defining human health

Human nutrition, the gut microbiome and the immune system

Impact of diet in shaping gut microbiota revealed by a comparative study in children from Europe and rural Africa

Comparative metagenomics revealed commonly enriched gene sets in human gut microbiomes

The Carbohydrate-Active EnZymes database (CAZy): an expert resource for Glycogenomics

Fiber and prebiotics: mechanisms and health benefits

Effects of diet on resource utilization by a model human gut microbiota containing Bacteroides cellulosilyticus WH2, a symbiont with an extensive glycobiome

The kappa-carrageenase of P. carrageenovora features a tunnel-shaped active site: a novel insight in the evolution of Clan-B glycoside hydrolases

Biochemical Characterization and Crystal Structures of a Fungal Family 3 -Glucosidase, Cel3A from Hypocrea jecorina

Starch Catabolism by a Prominent Human Gut Symbiont Is Directed by the Recognition of Amylose Helices

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417-430

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10.1016/J.CELREP.2017.09.049

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Gideon Davies

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