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Kazune Tamura

Showing results (1-10 of 10) with videos related to

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Current Opinion in Structural Biology|December 7, 2020
Glycan utilization systems in the human gut microbiota: a gold mine for structural discoveriesKazune Tamura, Harry Brumer
ACS Chemical Biology|October 28, 2021
Configured for the Human Gut Microbiota: Molecular Mechanisms of Dietary β-Glucan UtilizationBenedikt Golisch, Zhenhuan Lei, Kazune Tamura, et al.
The Journal of Biological Chemistry|February 15, 2021
Distinct protein architectures mediate species-specific beta-glucan binding and metabolism in the human gut microbiotaKazune Tamura, Guillaume Dejean, Filip Van Petegem, et al.
ACS Chemical Biology|May 14, 2021
Orthogonal Active-Site Labels for Mixed-Linkage endo-β-GlucanasesNamrata Jain, Kazune Tamura, Guillaume Déjean, et al.
The Biochemical Journal|August 2, 2021
Conservation of endo-glucanase 16 (EG16) activity across highly divergent plant lineagesHila Behar, Kazune Tamura, Edward R Wagner, et al.
Journal of Bacteriology|February 1, 2017
Polysaccharide Utilization Loci: Fueling Microbial CommunitiesJulie M Grondin, Kazune Tamura, Guillaume Déjean, et al.
Mbio|April 9, 2020
Synergy between Cell Surface Glycosidases and Glycan-Binding Proteins Dictates the Utilization of Specific Beta(1,3)-Glucans by Human Gut <i>Bacteroides</i>Guillaume Déjean, Kazune Tamura, Adriana Cabrera, et al.
Cell Reports|November 16, 2017
Molecular Mechanism by which Prominent Human Gut Bacteroidetes Utilize Mixed-Linkage Beta-Glucans, Major Health-Promoting Cereal PolysaccharidesKazune Tamura, Glyn R Hemsworth, Guillaume Déjean, et al.
Cell Reports|October 12, 2017
Molecular Mechanism by which Prominent Human Gut Bacteroidetes Utilize Mixed-Linkage Beta-Glucans, Major Health-Promoting Cereal PolysaccharidesKazune Tamura, Glyn R Hemsworth, Guillaume Déjean, et al.
Cellular and Molecular Life Sciences : CMLS|May 8, 2019
Surface glycan-binding proteins are essential for cereal beta-glucan utilization by the human gut symbiont Bacteroides ovatusKazune Tamura, Matthew H Foley, Bernd R Gardill, et al.
Pageof 1

Showing results (1-10 of 10) with videos related to

Sort By:
Pageof 1
Current Opinion in Structural Biology|December 7, 2020
Glycan utilization systems in the human gut microbiota: a gold mine for structural discoveriesKazune Tamura, Harry Brumer
ACS Chemical Biology|October 28, 2021
Configured for the Human Gut Microbiota: Molecular Mechanisms of Dietary β-Glucan UtilizationBenedikt Golisch, Zhenhuan Lei, Kazune Tamura, et al.
The Journal of Biological Chemistry|February 15, 2021
Distinct protein architectures mediate species-specific beta-glucan binding and metabolism in the human gut microbiotaKazune Tamura, Guillaume Dejean, Filip Van Petegem, et al.
ACS Chemical Biology|May 14, 2021
Orthogonal Active-Site Labels for Mixed-Linkage endo-β-GlucanasesNamrata Jain, Kazune Tamura, Guillaume Déjean, et al.
The Biochemical Journal|August 2, 2021
Conservation of endo-glucanase 16 (EG16) activity across highly divergent plant lineagesHila Behar, Kazune Tamura, Edward R Wagner, et al.
Journal of Bacteriology|February 1, 2017
Polysaccharide Utilization Loci: Fueling Microbial CommunitiesJulie M Grondin, Kazune Tamura, Guillaume Déjean, et al.
Mbio|April 9, 2020
Synergy between Cell Surface Glycosidases and Glycan-Binding Proteins Dictates the Utilization of Specific Beta(1,3)-Glucans by Human Gut <i>Bacteroides</i>Guillaume Déjean, Kazune Tamura, Adriana Cabrera, et al.
Cell Reports|November 16, 2017
Molecular Mechanism by which Prominent Human Gut Bacteroidetes Utilize Mixed-Linkage Beta-Glucans, Major Health-Promoting Cereal PolysaccharidesKazune Tamura, Glyn R Hemsworth, Guillaume Déjean, et al.
Cell Reports|October 12, 2017
Molecular Mechanism by which Prominent Human Gut Bacteroidetes Utilize Mixed-Linkage Beta-Glucans, Major Health-Promoting Cereal PolysaccharidesKazune Tamura, Glyn R Hemsworth, Guillaume Déjean, et al.
Cellular and Molecular Life Sciences : CMLS|May 8, 2019
Surface glycan-binding proteins are essential for cereal beta-glucan utilization by the human gut symbiont Bacteroides ovatusKazune Tamura, Matthew H Foley, Bernd R Gardill, et al.
Pageof 1