Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
2040481 | Cell Reports | 2014 | 12 Pages |
•Microbial community dynamics can be inferred from intracellular metabolism•Metabolic interactions drive engineered microbial consortia to predictable equilibria•Spatial organization shapes the dynamics of mutualism in a metabolic eclipse scenario•Computation of Microbial Ecosystems in Time and Space (COMETS): a flexible tool
SummaryThe interspecies exchange of metabolites plays a key role in the spatiotemporal dynamics of microbial communities. This raises the question of whether ecosystem-level behavior of structured communities can be predicted using genome-scale metabolic models for multiple organisms. We developed a modeling framework that integrates dynamic flux balance analysis with diffusion on a lattice and applied it to engineered communities. First, we predicted and experimentally confirmed the species ratio to which a two-species mutualistic consortium converges and the equilibrium composition of a newly engineered three-member community. We next identified a specific spatial arrangement of colonies, which gives rise to what we term the “eclipse dilemma”: does a competitor placed between a colony and its cross-feeding partner benefit or hurt growth of the original colony? Our experimentally validated finding that the net outcome is beneficial highlights the complex nature of metabolic interactions in microbial communities while at the same time demonstrating their predictability.Video Abstract To view the video inline, enable JavaScript on your browser. However, you can download and view the video by clicking on the icon belowHelp with MP4 filesOptionsDownload video (56051 K)
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