The impact of the CRISPR-Cas biotechnological systems has recently broadened the genome editing toolbox available to different model organisms further with the addition of new efficient RNA-guided endonucleases. We have recently optimized CRISPR-Cpf1 (renamed Cas12a) system in zebrafish. We showed that (i) in the absence of Cpf1 protein, crRNAs are unstable and degraded in vivo, and CRISPR-Cpf1 RNP complexes efficiently mutagenize the zebrafish genome; and (ii) temperature modulates Cpf1 activity especially affecting AsCpf1, which experiences a reduced performance below 37 °C. Here, we describe a step-by-step protocol on how to easily design and generate crRNAs in vitro, purify recombinant Cpf1 proteins, and assemble ribonucleoprotein complexes to carry out efficient mutagenesis in zebrafish in a constitutive and temperature-controlled manner. Finally, we explain how to induce Cpf1-mediated homology-directed repair using single-stranded DNA oligonucleotides. In summary, this protocol includes the steps to efficiently modify the zebrafish genome and other ectothermic organisms using the CRISPR-Cpf1 system.
Keywords: Cas12a; Cpf1; HDR; Temperature regulation; Zebrafish.
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