Prebiotic fibers, polyphenols and other molecular components of food crops significantly affect the composition and function of the human gut microbiome and human health. The abundance of these, frequently uncharacterized, microbiome-active components vary within individual crop species. Here, we employ high throughput in vitro fermentations of pre-digested grain using a human microbiome to identify segregating genetic loci in a food crop, sorghum, that alter the composition and function of human gut microbes. Evaluating grain produced by 294 sorghum recombinant inbreds identifies 10 loci in the sorghum genome associated with variation in the abundance of microbial taxa and/or microbial metabolites. Two loci co-localize with sorghum genes regulating the biosynthesis of condensed tannins. We validate that condensed tannins stimulate the growth of microbes associated with these two loci. Our work illustrates the potential for genetic analysis to systematically discover and characterize molecular components of food crops that influence the human gut microbiome.

Identification of Loci in Sorghum Bicolor That are Associated with Bioactive Molecules Related to Gut Health

Foundation for Food and Agriculture Research (FFAR) - FFAR Fellows Program no grant ID listed

Jeff and Tricia Raikes Foundation no grant ID listed

the Bill and Melinda Gates Foundation no grant ID listed

the China Scholarship Council no grant ID listed

the Don Dillon Foundation no grant ID listed

the Hogemeyer Family Foundation no grant ID listed

the McConnell fund no grant ID listed

USDA-ARS 3042-21220-033-00D