Citations are updated once a week. Recently added citations may not appear.
The suggestion is based on each study and bacteria having different weight based on a multitude of factors. For example, how severe a shift is seen.
| Context | Citation |
|---|---|
| Increases Bacteroides - : ß-glucan {Beta-Glucan} |
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Sharing a Γ-Glucan Meal: Transcriptomic Eavesdropping on a Bacteroides ovatus-Subdoligranulum variabile-Hungatella hathewayi Consortium. Applied and environmental microbiology (Appl Environ Microbiol ) Vol: 86 Issue 20 Pages: Pub: 2020 Oct 1 Epub: 2020 Oct 1 Authors Centanni M , Sims IM , Bell TJ , Biswas A , Tannock GW , Html Article Publication |
| Increases Bacteroides - : ß-glucan {Beta-Glucan} |
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Surface glycan-binding proteins are essential for cereal beta-glucan utilization by the human gut symbiont Bacteroides ovatus. Cellular and molecular life sciences : CMLS (Cell Mol Life Sci ) Vol: 76 Issue 21 Pages: 4319-4340 Pub: 2019 Nov Epub: 2019 May 6 Authors Tamura K , Foley MH , Gardill BR , Dejean G , Schnizlein M , Bahr CME , Louise Creagh A , van Petegem F , Koropatkin NM , Brumer H , Html Article Publication |
| Increases Bacteroides - : ß-glucan {Beta-Glucan} |
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A decrease in anaerobic bacteria promotes Candida glabrata overgrowth while Γ-glucan treatment restores the gut microbiota and attenuates colitis. Gut pathogens (Gut Pathog ) Vol: 10 Issue Pages: 50 Pub: 2018 Epub: 2018 Dec 3 Authors Charlet R , Bortolus C , Barbet M , Sendid B , Jawhara S , Html Article Publication |
| Increases Bacteroides - : ß-glucan {Beta-Glucan} |
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Barley Γ-glucan consumption improves glucose tolerance by increasing intestinal succinate concentrations. NPJ science of food (NPJ Sci Food ) Vol: 8 Issue 1 Pages: 69 Pub: 2024 Sep 30 Epub: 2024 Sep 30 Authors Mio K , Goto Y , Matsuoka T , Komatsu M , Ishii C , Yang J , Kobayashi T , Aoe S , Fukuda S , Html Article Publication |
| Increases Bacteroides - : ß-glucan {Beta-Glucan} |
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Dietary Polycan, a Γ-glucan originating from Aureobasidium pullulansSM-2001, attenuates high-fat-diet-induced intestinal barrier damage in obese mice by modulating gut microbiota dysbiosis. Food science & nutrition (Food Sci Nutr ) Vol: 12 Issue 8 Pages: 5824-5835 Pub: 2024 Aug Epub: 2024 May 26 Authors Ko GP , Unno T , Kim YS , Kim J , Html Article Publication |
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