Circular Vectors as an efficient, fully synthetic, cell-free approach for preparing small circular DNA as a plasmid substitute for guide RNA expression in CRISPR-Cas9 genome editing

Robust expression of guide RNA (gRNA) is essential for successful implementation of CRISPR-Cas9 genome-editing methods. The gRNA components, such as an RNA polymerase promoter followed by the gRNA coding sequence and an RNA polymerase terminator sequence, and the Cas9 protein are expressed either via an all-in-one plasmid or separate dedicated plasmids. The preparation of such plasmids involves a laborious multi-day process of DNA assembly, bacterial cloning, validation, purification and sequencing. Our Circular Vector (CV) protocol introduces an efficient, fully synthetic, cell-free approach for preparing gRNA expression templates suitable for transfection, marking a significant advancement over traditional plasmid-based approaches. This protocol consists of the circularization and purification of linear double-stranded DNA (dsDNA) containing gRNA expression elements into compact, bacterial-backbone-free circular DNA expression vectors in as little as 3 h. We provide a guide to the design of the dsDNA template coding for gRNA elements for CRISPR-Cas9 base and prime editing, along with step-by-step instructions for the efficient preparation of gRNA-expressing CVs. In addition to rapid preparation, CVs created via this protocol offer several key advantages: a compact size, absence of a bacterial backbone, absence of bacterial endotoxins and no contamination by bacterial RNA or DNA fragments. These features make gRNA-expressing CVs a superior choice over plasmid-based gRNA expression templates.