Genome structural variations enable microbes to evolve quickly under environmental stress. Recent efforts in synthetic biology have shown the ability of yeast chromosomal engineering to generate a larger scale of genome structural variations, which require a high efficiency of DNA rearrangement technology. In this review, we summarize the recent development of the SCRaMbLE system, an evolutionary approach, and the CRISPR/Cas9 technology to generate yeast genome rearrangement. Both technologies exhibit the powerful applications of chromosomal engineering to accelerate phenotypic evolution. We highlight several studies where yeast genome rearrangement has successfully improved industrially-relevant phenotypes, including the production of novel medicine, nutrition supplements, anti-tumor molecules, and the tolerance of environmental stress and drug resistance.
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