Litcius/Paper detail

Genetic Diversity for Accelerating Microbial Adaptive Laboratory Evolution

Yangyang Zheng, Kunqiang Hong, Baowei Wang, Dingyu Liu, Tao Chen, Zhiwen Wang

2021ACS Synthetic Biology22 citationsDOI

Abstract

Adaptive laboratory evolution (ALE) is a widely used and highly effective tool for improving microbial phenotypes and investigating the evolutionary roots of biological phenomena. Serving as the raw materials of evolution, mutations have been extensively utilized to increase the chances of engineering molecules or microbes with tailor-made functions. The generation of genetic diversity is therefore a core technology for accelerating ALE, and a high-quality mutant library is crucial to its success. Because of its importance, technologies for generating genetic diversity have undergone rapid development in recent years. Here, we review the existing techniques for the construction of mutant libraries, briefly introduce their mechanisms and applications, discuss ongoing and emerging efforts to apply engineering technologies in the construction of mutant libraries, and suggest future perspectives for library construction.

Topics & Concepts

Diversity (politics)Directed evolutionDirected Molecular EvolutionSynthetic biologyProcess (computing)Genetic diversityComputer scienceBiologyComputational biologyData scienceBiotechnologyBiochemical engineeringMutantEngineeringGeneticsGeneAnthropologySociologyOperating systemPopulationDemographyCRISPR and Genetic EngineeringInnovative Microfluidic and Catalytic Techniques InnovationEvolution and Genetic Dynamics
Genetic Diversity for Accelerating Microbial Adaptive Laboratory Evolution | Litcius