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Modular and Flexible Molecular Device for Simultaneous Cytosine and Adenine Base Editing at Random Genomic Loci in Filamentous Fungi.

Yali DuanYingao TanXizhu ChenXiaolin PeiMu Li
Published in: ACS synthetic biology (2023)
Random base editing is regarded as a fundamental method for accelerating the genomic evolution in both scientific research and industrial applications. In this study, we designed a modular interaction-based dual base editor (MIDBE) that assembled a DNA helicase and various base editors through dockerin/cohesin-mediated protein-protein interactions, resulting in a self-assembled MIDBE complex capable of editing bases at any locus in the genome. The base editing type of MIDBE can be readily controlled by the induction of cytidine or/and adenine deaminase gene expression. MIDBE exhibited the highest editing efficiency 2.3 × 10 3 times greater than the native genomic mutation rate. To evaluate the potential of MIDBE in genomic evolution, we developed a removable plasmid-based MIDBE tool, which led to a remarkable 977.1% increase of lovastatin production in Monascus purpureus HJ11. MIDBE represents the first biological tool for generating and accumulating base mutations in Monascus chromosome and also offers a bottom-up strategy for designing the base editor.
Keyphrases
  • crispr cas
  • gene expression
  • copy number
  • dna methylation
  • genome wide
  • escherichia coli
  • heavy metals
  • risk assessment
  • human health