Ruminococcus bromii is a keystone species for the degradation of resistant starch in the human colon

Xiaolei Ze, Sylvia Helen Duncan, Petra Louis, Harry James Flint* (Corresponding Author)

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

653 Citations (Scopus)


The release of energy from particulate substrates such as dietary fiber and resistant starch (RS) in the human colon may depend on the presence of specialist primary degraders (or ‘keystone species’) within the microbial community. We have explored the roles of four dominant amylolytic bacteria found in the human colon in the degradation and utilization of resistant starches. Eubacterium rectale and Bacteroides thetaiotaomicron showed limited ability to utilize RS2- and RS3-resistant starches by comparison with Bifidobacterium adolescentis and Ruminococcus bromii. In co-culture, however, R. bromii proved unique in stimulating RS2 and RS3 utilization by the other three bacterial species, even in a medium that does not permit growth of R. bromii itself. Having previously demonstrated low RS3 fermentation in vivo in two individuals with undetectable populations of R. bromii-related bacteria, we show here that supplementation of mixed fecal bacteria from one of these volunteers with R. 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 may be a primary cause of variable energy recovery from this important component of the diet. This work also indicates that R. bromii possesses an exceptional ability to colonize and degrade starch particles when compared with previously studied amylolytic bacteria from the human colon.
Original languageEnglish
Pages (from-to)1535-1543
Number of pages9
JournalThe ISME Journal
Issue number8
Early online date16 Feb 2012
Publication statusPublished - 2012


  • energy harvest
  • resistant starch
  • human colon
  • anaerobes
  • gut microbiota
  • primary degrader


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