Abstract
A long tracrRNA (tracr-L),which naturally act as single guide RNA,and its truncated version, Δtracr-L, from S. pyogenes, efficiently induce Cas9-mediated double-strand breaks (DSBs) in plant genomic loci, as demonstrated by in vitro cleavage assay and protoplast transfection. CRISPR-Cas system provides a form of immune memory in prokaryotes and archaea, protecting them against viruses and foreign genetic elements. In Streptococcus pyogenes, this system includes the pre-crRNA along with another non-coding RNA, tracrRNA, which aids in CRISPR-based immunity. In S. pyogenes, two distinct tracrRNAs are produced: a long form (tracr-L) and a short form (tracr-S). The tracr-S regulates crRNA biogenesis and Cas9 cleavage, while tracr-L suppresses CRISPR-Cas expression by targeting the Cas9 promoter to prevent autoimmunity. Deleting 79 nucleotides from tracr-L results in Δtracr-L, which retains similar functionality in gene repression. This study investigates, for thefirst time, the effectiveness of tracr-L, and Δtracr-L in genome editing within plant systems. In vitro cleavage assays using purified Cas9 and synthesized sgRNAs targeting the Cas9 gene, OsPDS, and the OsSWEET11 promoter revealed that across all target sites, tracr-S demonstrated the highest cleavage efficiency compared to tracr-L and Δtracr-L. For in vivo genome editing, we transfected rice protoplasts with tracr-L, Δtracr-L, and tracr-S, targeting three rice genes: OsPDS, OsSPL14, and the promoter of OsSWEET14. Amplicon deep sequencing revealed various types of indels at the target regions across all three tracrRNA versions, indicating comparable levels of efficiency. This study establishes the utility of both the long-form tracrRNA (tracr-L) and its truncated variant (Δtracr-L) in eukaryote genome editing. These two new forms of tracrRNA provide proof of concept and expand the CRISPR-Cas toolkit for plant genome editing applications, and for eukaryotes more broadly.
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