CRISPR/Cas9 nuclease cleavage combined with Gibson assembly for seamless cloning.

Restriction enzymes have two major limitations for cloning: they cannot cleave at any desired location in a DNA sequence and may not cleave uniquely within a DNA sequence. In contrast, the clustered regularly interspaced short palindromic repeat (CRISPR)–associated enzyme 9 (Cas9), when coupled with single guide RNAs (sgRNA), has been used in vivo to cleave the genomes of many species at a single site, enabling generation of mutated cell lines and animals. The Cas9/sgRNA complex recognizes a 17–20 base target site, which can be of any sequence as long as it is located 5′ of the protospacer adjacent motif (PAM; sequence 5′-NRG, where R = G or A). Thus, it can be programmed to cleave almost anywhere with a stringency higher than that of one cleavage in a sequence of human genome size. Here, the Cas9 enzyme and a specific sgRNA were used to linearize a 22 kb plasmid in vitro. A DNA fragment was then inserted into the linearized vector seamlessly through Gibson assembly. Our technique can be used to directly,...