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An evolutionary algorithm for designing microbial communities via environmental modification

Alan R. Pacheco, Daniel Segrè

2021Journal of The Royal Society Interface25 citationsDOIOpen Access PDF

Abstract

Despite a growing understanding of how environmental composition affects microbial communities, it remains difficult to apply this knowledge to the rational design of synthetic multispecies consortia. This is because natural microbial communities can harbour thousands of different organisms and environmental substrates, making up a vast combinatorial space that precludes exhaustive experimental testing and computational prediction. Here, we present a method based on the combination of machine learning and metabolic modelling that selects optimal environmental compositions to produce target community phenotypes. In this framework, dynamic flux balance analysis is used to model the growth of a community in candidate environments. A genetic algorithm is then used to evaluate the behaviour of the community relative to a target phenotype, and subsequently adjust the environment to allow the organisms to approach this target. We apply this iterative process to thousands of in silico communities of varying sizes, showing how it can rapidly identify environments that yield desired taxonomic compositions and patterns of metabolic exchange. Moreover, this combination of approaches produces testable predictions for the assembly of experimental microbial communities with specific properties and can facilitate rational environmental design processes for complex microbiomes.

Topics & Concepts

Flux balance analysisBiochemical engineeringMicrobial population biologyComputer scienceProcess (computing)Rational designIn silicoMicrobiomeSynthetic biologyMicrobial ecologyIterative and incremental developmentEcologyMachine learningArtificial intelligenceBiologyComputational biologyBioinformaticsEngineeringBacteriaOperating systemGeneBiochemistryGeneticsSoftware engineeringMicrobial Metabolic Engineering and BioproductionGene Regulatory Network AnalysisBioinformatics and Genomic Networks
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