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Trimming the genomic fat: minimising and re-functionalising genomes using synthetic biology

Xin Xu, F. Meier, Benjamin A. Blount, Isak S. Pretorius, Tom Ellis, Ian T. Paulsen, Thomas C. Williams

2023Nature Communications54 citationsDOIOpen Access PDF

Abstract

Naturally evolved organisms typically have large genomes that enable their survival and growth under various conditions. However, the complexity of genomes often precludes our complete understanding of them, and limits the success of biotechnological designs. In contrast, minimal genomes have reduced complexity and therefore improved engineerability, increased biosynthetic capacity through the removal of unnecessary genetic elements, and less recalcitrance to complete characterisation. Here, we review the past and current genome minimisation and re-functionalisation efforts, with an emphasis on the latest advances facilitated by synthetic genomics, and provide a critical appraisal of their potential for industrial applications.

Topics & Concepts

GenomeBiologySynthetic biologyComputational biologyGenomicsComputer scienceGeneticsGeneCRISPR and Genetic EngineeringRNA and protein synthesis mechanismsAnimal Genetics and Reproduction
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