High throughput genome scale modeling predicts microbial vitamin requirements contribute to gut microbiome community structure
Juan Pablo Molina Ortiz, Mark Read, Dale D. McClure, Andrew Holmes, Fariba Dehghani, Erin R. Shanahan
Abstract
strains occupy a prototrophic profile. Finally, we identify pre-defined interaction modules (IMs) of gut species from human and mice predicted to be driven by, or highly independent of vitamin exchanges. Our analysis provides mechanistic grounding to gut microbiome stability and to co-abundance-based observations, a fundamental step toward understanding emergent processes that influence health outcomes. Further, our work opens a path to future explorations in the field through applications of GEMNAST to additional nutritional dimensions.
Topics & Concepts
BiologyMicrobiomeHuman Microbiome ProjectComputational biologyPrevotellaHuman microbiomeBacteroidesGut floraGeneticsEvolutionary biologyBiochemistryBacteriaGut microbiota and healthDiet and metabolism studiesMetabolomics and Mass Spectrometry Studies