et al. The Ruminococcus bromii amylosome protein Sas6 binds single and double helical α-glucan structures in starch. Nat Struct Mol Biol 31, 255–265 (2024). https://doi.org/10.1038/s41594-023-01166-6 Download citation Received20 November 2022 Accepted27 October 2023 Published04 January ...
Authors provide analysis of starch-binding protein Sas6, from Ruminococcus bromii, a bacterium that degrades resistant starch granules in the human gut, and demonstrate how carbohydrate-binding modules recognize different moieties within starch.Photenhauer Amanda L....
degrade RS2, such asR. gnavus, might also benefit fromR. bromiiRS2 metabolism by consuming glucose and malto-oligosaccharides released from thestarch granule[76]. Overall, there is strong in vitro and in vivo evidence supporting the role ofR. bromiias a primary RS2 degrader in the human ...
bromii, but not with the other three species, greatly enhanced the extent of RS3 fermentation in vitro. This argues strongly that R. bromii has a pivotal role in fermentation of RS3 in the human large intestine, and that variation in the occurrence of this species and its close relatives ...
Influences of Ruminococcus bromii and Peptostreptococcaceae on voluntary exercise behavior in a rodent modelRusling, MatthewKarim, AnishaKaye, AviLee, Chia-Ming JimmyWegman-Points, LaurenMathis, VictoriaLampeter, ThomasLi-Lian YuanFrontiers in Microbiomes...