摘要
Naturally occurring structural variations(SVs)are a considerable source of genomic variation that can reshape the 3D architecture of chromosomes.Controllable methods aimed at introducing the complex SVs and their related molecular mechanisms have remained farfetched.In this study,an SV-prone yeast strain was developed using Synthetic Chromosome Rearrangement and Modification by LoxP-mediated Evolution(SCRaMbLE)technology with two synthetic chromosomes,namely synV and synX.The biosynthesis of astaxanthin is used as a readout and a proof of concept for the application of SVs in industries.Our findings showed that complex SVs,including a pericentric inversion and a trans-chromosome translocation between synV and synX,resulted in two neo-chromosomes and a 2.7-fold yield of astaxanthin.Also,genetic targets were mapped,which resulted in a higher astaxanthin yield,thus demonstrating the SVs’ability to reorganize genetic information along the chromosomes.The rational design of trans-chromosome translocation and pericentric inversion enabled precise induction of these phenomena.Collectively,this study provides an effective tool to not only accelerate the directed genome evolution but also to reveal the mechanistic insight of complex SVs for altering phenotypes.
基金
This work was supported by the Ministry of Science and Technology,the National Key Research and Development Program of China(2021YFC2100800)
the National Natural Science Foundation of China(31800719,31861143017,21621004).
