CRISPR Cas9 system is becoming an emerging genome-editing platform and has been widely used for multiplex genome engineering of Saccharomyces cerevisiae. In this study, we developed a novel replicative and integrative CRISPR Cas9 genome-editing platform for large DNA construct in vivo assembly, replication, and high-copy genome integration in Saccharomyces cerevisiae. It harnessed advantages of autonomous replicative sequence in S. cerevisiae, in vivo DNA assembly, CRISPR Cas9, and delta integration. Enhanced green fluorescent protein was used as a marker to confirm large DNA construct in vivo assembly and genome integration. Based on this platform, an efficient 2,3- BDO producing yeast strain was rapidly constructed with up to 25-copy genome integration of 2,3-BDO biosynthesis pathway. Further strain engineering was conducted by multiplex disruption of ADH1, PDC1, PDC5 and MTH1 using a 2μ-based replicative CRISPR Cas9 plasmid containing donor DNAs. As a result, the 2,3-BDO titer was improved by 3.9 folds compared to that obtained by the initially engineered yeast and 50.5 g/L 2,3-BDO was produced by the final engineered yeast strain 36aS5-CFBDO in fed-batch fermentation without strain evolution and process optimization. This study demonstrated that the new replicative and integrative CRISPR Cas9 genome-editing platform was promising in generating an efficient 2,3-BDO-producing S. cerevisiae strain.
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