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Rapid characterization of anti-CRISPR proteins and optogenetically engineered variants using a versatile plasmid interference system, Nucleic Acids Res, 1 Nov 2023

Updated: 2023-11-01

Nucleic Acids Research, 1 November, 2023, DOI:https://doi.org/10.1093/nar/gkad995

 

Rapid characterization of anti-CRISPR proteins and optogenetically engineered variants using a versatile plasmid interference system


Guoxu Song, Chunhong Tian, Jiahui Li, Fei Zhang, Yuxin Peng, Xing Gao, Yong Tian。。。

 

Abstract


Anti-CRISPR (Acr) proteins are encoded by mobile genetic elements to overcome the CRISPR immunity of prokaryotes, displaying promises as controllable tools for modulating CRISPR-based applications. However, characterizing novel anti-CRISPR proteins and exploiting Acr-related technologies is a rather long and tedious process. Here, we established a versatile plasmid interference with CRISPR interference (PICI) system in Escherichia coli for rapidly characterizing Acrs and developing Acr-based technologies. Utilizing the PICI system, we discovered two novel type II-A Acrs (AcrIIA33 and AcrIIA34), which can inhibit the activity of SpyCas9 by affecting DNA recognition of Cas9. We further constructed a circularly permuted AcrIIA4 (cpA4) protein and developed optogenetically engineered, robust AcrIIA4 (OPERA4) variants by combining cpA4 with the light-oxygen-voltage 2 (LOV2) blue light sensory domain. OPERA4 variants are robust light-dependent tools for controlling the activity of SpyCas9 by approximately 1000-fold change under switching dark-light conditions in prokaryotes. OPERA4 variants can achieve potent light-controllable genome editing in human cells as well. Together, our work provides a versatile screening system for characterizing Acrs and developing the Acr-based controllable tools.

 

Article link:https://academic.oup.com/nar/advance-article/doi/10.1093/nar/gkad995/7335753

 

 

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