2010
DOI: 10.1146/annurev.food.102308.124101
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Mechanisms of Microbial Hydrogen Disposal in the Human Colon and Implications for Health and Disease

Abstract: In the human gastrointestinal tract, dietary components, including fiber, that reach the colon are fermented principally to short-chain fatty acids, hydrogen, and carbon dioxide. Microbial disposal of the hydrogen generated during anaerobic fermentation in the human colon is critical to optimal functioning of this ecosystem. However, our understanding of microbial hydrogenotrophy is fragmented and, at least as it occurs in the colon, is mostly theoretical in nature. Thorough investigation and integration of kn… Show more

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Cited by 164 publications
(151 citation statements)
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“…It indicates that the predominant mechanism of H 2 evolution in this ecosystem is through fermentative processes mediated by Bacteroidetes and Clostridial members of the Firmicutes. Of the major pathways of hydrogenogenesis, 4,19 ferredoxin-coupled H 2 fermentation appears to the predominant; [FeFe]- -hydrogenases that mediate ferredoxin-dependent H 2 evolution. NADPH-or formate-dependent H 2 evolution appears to be quantitatively less important.…”
Section: Discussionmentioning
confidence: 99%
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“…It indicates that the predominant mechanism of H 2 evolution in this ecosystem is through fermentative processes mediated by Bacteroidetes and Clostridial members of the Firmicutes. Of the major pathways of hydrogenogenesis, 4,19 ferredoxin-coupled H 2 fermentation appears to the predominant; [FeFe]- -hydrogenases that mediate ferredoxin-dependent H 2 evolution. NADPH-or formate-dependent H 2 evolution appears to be quantitatively less important.…”
Section: Discussionmentioning
confidence: 99%
“…It is probable that the best-characterized pathways of colonic H 2 reoxidation, namely methanogenesis, sulfate-reduction, and potentially acetogenesis, 4,12,14,39 serve as only fractional sinks in the colonic H 2 budget. These processes have a major influence on the chemical composition of the human colon and its flatus, 4,12 enhance the diversity of gut microbiota, 3 and, particularly in the case of sulfate-reducers, have been extensively linked to human health and disease.…”
Section: Discussionmentioning
confidence: 99%
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