CRISPR/Cas13d-mediated efficient KDM5B mRNA knockdown in porcine somatic cells and parthenogenetic embryos.

An efficient mRNA knockdown strategy is needed to explore gene function in cells and embryos, especially to understand the process of maternal mRNA decay during early embryo development. Cas13, a novel RNA-targeting CRISPR effector protein, could bind and cleave complementary single-strand RNA, which has been employed for mRNA knockdown in mouse and human cells and RNA-virus interference in plants. Cas13 has not yet been reported to be used in pigs.

CRISPR/Cas9-mediated correction of homozygous point mutation in a Waardenburg syndrome 2A pig model.

Gene therapy for curing congenital human diseases is promising, but the feasibility and safety need to be further evaluated. In this study, based on a pig model that carries the c.740T>C (L247S) mutation in with an inheritance pattern and clinical pathology that mimics Waardenburg syndrome 2A (WS2A), we corrected the point mutation by the CRISPR-Cas9 system in the mutant fibroblast cells using single-stranded oligodeoxynucleotide (ssODN) and long donor plasmid DNA as the repair template.

Cytosine Base Editor (hA3A-BE3-NG)-Mediated Multiple Gene Editing for Pyramid Breeding in Pigs.

Pig is an important agricultural economic animal, providing large amount of meat products. With the development of functional genomics and bioinformatics, lots of genes and functional single nucleotide polymorphisms (SNPs) related to disease resistance and (or) economic traits in pigs have been identified, which provides the targets for genetic improvement by genome editing. Base editors (BEs), combining Cas9 nickase and cytidine or adenine deaminase, achieve all four possible transition mutations (C-to-T, A-to-G, T-to-C, and G-to-A) efficiently and accurately without double strand breaks (DSBs) under the protospacer adjacent motif (PAM) sequence of NGG.