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PAM-flexible Engineered FnCas9 variants for robust and ultra-precise genome editing and diagnostics

Nat Commun. 2024-06; 
Sundaram Acharya, Asgar Hussain Ansari, Prosad Kumar Das, Seiichi Hirano, Meghali Aich, Riya Rauthan, Sudipta Mahato, Savitri Maddileti, Sajal Sarkar, Manoj Kumar, Rhythm Phutela, Sneha Gulati, Abdul Rahman, Arushi Goel, C Afzal, Deepanjan Paul, Trupti Agrawal, Vinay Kumar Pulimamidi, Subhadra Jalali, Hiroshi Nishimasu, Indumathi Mariappan, Osamu Nureki, Souvik Maiti, Debojyoti Chakraborty
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Gene Synthesis … 17d) were synthesized as gene blocks (GenScript) and subcloned in modified PX458-3xHA-FnCas9 and modified PX458-3xHA-SpCas9 (with a unique EcoRI site generated by site-… Get A Quote

摘要

The clinical success of CRISPR therapies hinges on the safety and efficacy of Cas proteins. The Cas9 from Francisella novicida (FnCas9) is highly precise, with a negligible affinity for mismatched substrates, but its low cellular targeting efficiency limits therapeutic use. Here, we rationally engineer the protein to develop enhanced FnCas9 (enFnCas9) variants and broaden their accessibility across human genomic sites by ~3.5-fold. The enFnCas9 proteins with single mismatch specificity expanded the target range of FnCas9-based CRISPR diagnostics to detect the pathogenic DNA signatures. They outperform Streptococcus pyogenes Cas9 (SpCas9) and its engineered derivatives in on-target editing efficiency, knock-in r... More

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