Dead Cas9-sgRNA Complex Shelters Vulnerable DNA Restriction Enzyme Sites from Cleavage for Cloning Applications

Abstract

The creation of the nuclease-dead Cas protein (dCas9) offers a new platform for a plethora of new discoveries. Diverse dCas9 tools have been developed for transcription regulation, epigenetic engineering, base editing, genome imaging, genetic screens, and chromatin immunoprecipitation. Here, we show that dCas9 and single-guide RNA preassembled to form ribonucleoprotein dCas9-sgRNA (referred to as dRNP) is capable of specifically and reversibly blocking the activity of DNA cleavage by restriction enzymes (REs). We show that the inhibition of RE activities occurs when the recognition or the cleavage site of the DNA is overlapped by the sgRNA or the protospacer adjacent motif sequence. Furthermore, we show that multiple dRNPs can be used simultaneously to inhibit more than one RE sites. As such, we exploited this novel finding as a method to demonstrate that inserts can be ligated into vectors, and vice versa, whereby selective RE sites are temporarily sheltered to allow the desired cloning.