Youran Shao scite author profile

While there are several genome editing techniques available, few are suitable for dynamic and simultaneous mutagenesis of arbitrary targeted sequences in prokaryotes. Here, to address these limitations, we present a versatile and multiplex retron-mediated genome editing system (REGES). First, through systematic optimization of REGES, we achieve efficiency of ∼100%, 85 ± 3%, 69 ± 14% and 25 ± 14% for single-, double-, triple- and quadruple-locus genome editing, respectively. In addition, we employ REGES to generate pooled and barcoded variant libraries with degenerate RBS sequences to fine-tune the expression level of endogenous and exogenous genes, such as transcriptional factors to improve ethanol tolerance and biotin biosynthesis. Finally, we demonstrate REGES-mediated continuous in vivo protein evolution, by combining retron, polymerase-mediated base editing and error-prone transcription. By these case studies, we demonstrate REGES as a powerful multiplex genome editing and continuous evolution tool with broad applications in synthetic biology and metabolic engineering.

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Analysis of nicotine-induced metabolic changes in Blakeslea trispora by GC-MS

Liu

Shao

et al. 2020

J. Zhejiang Univ. Sci. B

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Youran Shao

High-level secretory production of leghemoglobin in Pichia pastoris through enhanced globin expression and heme biosynthesis

Retron-mediated multiplex genome editing and continuous evolution in Escherichia coli

Analysis of nicotine-induced metabolic changes in Blakeslea trispora by GC-MS

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