There has been tremendous amount of effort focused on the development and improvement of genome editing applications over the decades. Particularly, the development of programmable nucleases has revolutionized genome editing with regards to their improvements in mutagenesis efficacy and targeting feasibility. Programmable nucleases are competent for a variety of genome editing applications. There is growing interest in employing the programmable nucleases in therapeutic genome editing applications, such as correcting mutations in genetic disorders. Type II CRISPR-Cas9 bacterial adaptive immunity systems have recently been engineered as RNA-guided programmable nucleases. Native CRISPR-Cas9 nucleases have two stages of sequence-specific targe...