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Directed Evolution of Microbial Communities

Álvaro Sánchez, Jean C. C. Vila, Chang‐Yu Chang, Juan Díaz‐Colunga, Sylvie Estrela, María Rebolleda‐Gómez

2021Annual Review of Biophysics99 citationsDOIOpen Access PDF

Abstract

Directed evolution is a form of artificial selection that has been used for decades to find biomolecules and organisms with new or enhanced functional traits. Directed evolution can be conceptualized as a guided exploration of the genotype-phenotype map, where genetic variants with desirable phenotypes are first selected and then mutagenized to search the genotype space for an even better mutant. In recent years, the idea of applying artificial selection to microbial communities has gained momentum. In this article, we review the main limitations of artificial selection when applied to large and diverse collectives of asexually dividing microbes and discuss how the tools of directed evolution may be deployed to engineer communities from the top down. We conceptualize directed evolution of microbial communities as a guided exploration of an ecological structure-function landscape and propose practical guidelines for navigating these ecological landscapes.

Topics & Concepts

Selection (genetic algorithm)Directed Molecular EvolutionBiologyDirected evolutionEvolutionary biologyBiological evolutionAdaptive evolutionAdaptation (eye)EcologyExperimental evolutionExaptationCoevolutionFitness landscapeFunction (biology)Convergent evolutionComputer scienceArtificial intelligenceGeneticsMutantGenePhylogenetic treeSociologyNeuroscienceDemographyPopulationEvolution and Genetic DynamicsGene Regulatory Network AnalysisInnovative Microfluidic and Catalytic Techniques Innovation
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