Abstract
Simplicity, efficiency and versatility of the CRISPR/Cas system greatly contributed to its rapid use in a broad range of fields. Applications of unbiased CRISPR/Cas screenings are increasing and thus there is a growing need for unbiased and tailored CRISPR/Cas gRNA libraries. Conventional methods for gRNA library generation apply PCR and cloning techniques, thus coupling library diversity with distribution. Here, we provide additional technical expertise to apply our covalently-closed-circular synthesized (3Cs) gRNA library generation technology for the generation of high-quality CRISPR/Cas gRNA libraries. F1-origin of replication-containing plasmid DNA is transformed into CJ236 bacteria for single colony outgrow followed by M13KO7 bacteriophage superinfection for the production and preparation of circular dU-containing ssDNA. dU-ssDNA is annealed with homology- and gRNA-encoding DNA oligonucleotides for their T7 DNA polymerase-mediated extension to form hetero-duplexed CCC-dsDNA (3Cs-dsDNA). 3Cs-dsDNA is electroporated for the selected amplification of the newly synthesized, gRNA-containing strand. To remove wild-type plasmid remnants, the purified plasmid DNA is digested with restriction enzymes targeting the gRNA-placeholder sequence in the template DNA. Undigested plasmid is electroporated for the extraction of the final 3Cs gRNA library. Due to the absence of PCR amplification and conventional cloning steps, the 3Cs technology uncouples sequence diversity from sequence distribution, thereby generating gRNA libraries with near-uniform distribution in diversities being only limited by electroporation efficiencies.