4.8 Article

Dynamics of synthetic yeast chromosome evolution shaped by hierarchical chromatin organization

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NATIONAL SCIENCE REVIEW
卷 10, 期 5, 页码 -

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OXFORD UNIV PRESS
DOI: 10.1093/nsr/nwad073

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synthetic biology; genome rearrangement; hierarchical chromatin organization; synthetic yeast genome; SCRaMbLE; Saccharomyces cerevisiae

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Synthetic genome evolution is a systematic and straightforward approach to explore evolutionary processes. The SCRaMbLE system can drive structural variations rapidly and uncover over 260,000 rearrangement events in SCRaMbLEd yeast with 5.5 synthetic chromosomes. These rearrangements exhibit a specific landscape determined by the combinatorial effects of chromatin accessibility and 3D spatial contact probability. The extensive rearrangements mediated by SCRaMbLE provide a driving force for directed genome evolution, and the investigation of rearrangement landscape offers mechanistic insights into genome dynamics.
Synthetic genome evolution provides a dynamic approach for systematically and straightforwardly exploring evolutionary processes. Synthetic Chromosome Rearrangement and Modification by LoxP-mediated Evolution (SCRaMbLE) is an evolutionary system intrinsic to the synthetic yeast genome that can rapidly drive structural variations. Here, we detect over 260 000 rearrangement events after the SCRaMbLEing of a yeast strain harboring 5.5 synthetic yeast chromosomes (synII, synIII, synV, circular synVI, synIXR and synX). Remarkably, we find that the rearrangement events exhibit a specific landscape of frequency. We further reveal that the landscape is shaped by the combined effects of chromatin accessibility and spatial contact probability. The rearrangements tend to occur in 3D spatially proximal and chromatin-accessible regions. The enormous numbers of rearrangements mediated by SCRaMbLE provide a driving force to potentiate directed genome evolution, and the investigation of the rearrangement landscape offers mechanistic insights into the dynamics of genome evolution. A specific landscape of over 260,000 rearrangements in SCRaMbLEd yeast harboring 5.5 synthetic chromosomes was uncovered and found to be a result of combinatorial effects of chromatin accessibility and 3D spatial contact probability.

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