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Recent additions may not be included but will usually appear in 24 hrs or less.
| Rational | Source |
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Early-Life Sugar Consumption Affects the Rat Microbiome Independently of Obesity. β
Go to Publication β
The Journal of nutrition (J Nutr ) Vol: 147 Issue 1 Pages: 20-28 Pub: 2017 Jan Epub: 2016 Nov 30 Authors Noble EE , Hsu TM , Jones RB , Fodor AA , Goran MI , Kanoski SE , |
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Early-Life Sugar Consumption Affects the Rat Microbiome Independently of Obesity. β
Go to Publication β
The Journal of nutrition (J Nutr ) Vol: 147 Issue 1 Pages: 20-28 Pub: 2017 Jan Epub: 2016 Nov 30 Authors Noble EE , Hsu TM , Jones RB , Fodor AA , Goran MI , Kanoski SE , |
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Early-Life Sugar Consumption Affects the Rat Microbiome Independently of Obesity. β
Go to Publication β
The Journal of nutrition (J Nutr ) Vol: 147 Issue 1 Pages: 20-28 Pub: 2017 Jan Epub: 2016 Nov 30 Authors Noble EE , Hsu TM , Jones RB , Fodor AA , Goran MI , Kanoski SE , |
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A diet high in sugar and fat influences neurotransmitter metabolism and then affects brain function by altering the gut microbiota. β
Go to Publication β
Translational psychiatry (Transl Psychiatry ) Vol: 11 Issue 1 Pages: 328 Pub: 2021 May 27 Epub: 2021 May 27 Authors Guo Y , Zhu X , Zeng M , Qi L , Tang X , Wang D , Zhang M , Xie Y , Li H , Yang X , Chen D , |
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A diet high in sugar and fat influences neurotransmitter metabolism and then affects brain function by altering the gut microbiota. β
Go to Publication β
Translational psychiatry (Transl Psychiatry ) Vol: 11 Issue 1 Pages: 328 Pub: 2021 May 27 Epub: 2021 May 27 Authors Guo Y , Zhu X , Zeng M , Qi L , Tang X , Wang D , Zhang M , Xie Y , Li H , Yang X , Chen D , |
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Fructose dose-dependently influences colon barrier function by regulation of some main physical, immune, and biological factors in rats. β
Go to Publication β
The Journal of nutritional biochemistry (J Nutr Biochem ) Vol: 126 Issue Pages: 109582 Pub: 2024 Apr Epub: 2024 Jan 18 Authors Gan Q , Song G , Fang W , Wang Y , Qi W , |
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High-fructose corn syrup aggravates colitis via microbiota dysbiosis-mediated Th17/Treg imbalance. β
Go to Publication β
Clinical science (London, England : 1979) (Clin Sci (Lond) ) Vol: 137 Issue 20 Pages: 1619-1635 Pub: 2023 Oct 31 Epub: Authors Zhou M , Liu X , He J , Xu X , Ju C , Luo S , Lu X , Du P , Chen Y , |
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High-fructose corn syrup aggravates colitis via microbiota dysbiosis-mediated Th17/Treg imbalance. β
Go to Publication β
Clinical science (London, England : 1979) (Clin Sci (Lond) ) Vol: 137 Issue 20 Pages: 1619-1635 Pub: 2023 Oct 31 Epub: Authors Zhou M , Liu X , He J , Xu X , Ju C , Luo S , Lu X , Du P , Chen Y , |
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Two weeks of high glucose intake is enough to induce intestinal mucosal damage and disturb the balance of the gut microbiota of rats. β
Go to Publication β
Biomedical reports (Biomed Rep ) Vol: 18 Issue 1 Pages: 9 Pub: 2023 Jan Epub: 2022 Nov 30 Authors Min C , Fu T , Tan W , Wang T , Du Y , Huang X , |
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High-Glucose or -Fructose Diet Cause Changes of the Gut Microbiota and Metabolic Disorders in Mice without Body Weight Change. β
Go to Publication β
Nutrients (Nutrients ) Vol: 10 Issue 6 Pages: Pub: 2018 Jun 13 Epub: 2018 Jun 13 Authors Do MH , Lee E , Oh MJ , Kim Y , Park HY , |
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High-Glucose or -Fructose Diet Cause Changes of the Gut Microbiota and Metabolic Disorders in Mice without Body Weight Change. β
Go to Publication β
Nutrients (Nutrients ) Vol: 10 Issue 6 Pages: Pub: 2018 Jun 13 Epub: 2018 Jun 13 Authors Do MH , Lee E , Oh MJ , Kim Y , Park HY , |
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Fructose corn syrup induces inflammatory injury and obesity by altering gut microbiota and gut microbiota-related arachidonic acid metabolism. β
Go to Publication β
The Journal of nutritional biochemistry (J Nutr Biochem ) Vol: 124 Issue Pages: 109527 Pub: 2024 Feb Epub: 2023 Nov 16 Authors Chen Q , Luo Y , Shen Y , Li X , Yang H , Li J , Wang J , Xiao Y , |
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Gut microbiota and mycobiota change with feeding duration in mice on a high-fat and high-fructose diet. β
Go to Publication β
BMC microbiology (BMC Microbiol ) Vol: 24 Issue 1 Pages: 504 Pub: 2024 Nov 29 Epub: 2024 Nov 29 Authors Zheng R , Xiang X , Shi Y , Xie J , Xing L , Zhang T , Zhou Z , Zhang D , |
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All suggestions are computed solely on their predicted microbiome impact. Safety, side-effects etc must be evaluated by your medical professionals before starting. Some items suggests have significant risk of adverse consequences for some people.
Special thanks to David F Morrison and Geert Van Houcke for doing Quality Assurance. Special thanks to Oliver Luk, B.Sc. (Biology) from BiomeSight for spot checking the coding of data from the US National Library of Medicine
This is an Academic site. It generates theoretical models of what may benefit a specific microbiome results.
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