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Regulation of the CRISPR-Cas12a system by methylation and demethylation of guide RNA.

Zhian HuAo SunJinlei YangGul Naz Laghari BalochGongwei SunZhengping LiJun-Jie Gogo LiuSichun ZhangXinrong Zhang
Published in: Chemical science (2023)
Chemical modifications of CRISPR-Cas nucleases help decrease off-target editing and expand the biomedical applications of CRISPR-based gene manipulation tools. Here, we found that epigenetic modifications of guide RNA, such as m6A and m1A methylation, can effectively inhibit both the cis - and trans -DNA cleavage activities of CRISPR-Cas12a. The underlying mechanism is that methylations destabilize the secondary and tertiary structure of gRNA which prevents the assembly of the Cas12a-gRNA nuclease complex, leading to decreased DNA targeting ability. A minimum of three adenine methylated nucleotides are required to completely inhibit the nuclease activity. We also demonstrate that these effects are reversible through the demethylation of gRNA by demethylases. This strategy has been used in the regulation of gene expression, demethylase imaging in living cells and controllable gene editing. The results demonstrate that the methylation-deactivated and demethylase-activated strategy is a promising tool for regulation of the CRISPR-Cas12a system.
Keyphrases
  • crispr cas
  • genome editing
  • dna methylation
  • gene expression
  • living cells
  • genome wide
  • single molecule
  • fluorescent probe
  • circulating tumor
  • nucleic acid
  • dna binding
  • cell free
  • high resolution
  • copy number
  • cancer therapy