TY  - JOUR
AU  - Sato, Masahiro
AU  - Jin, Hansol
AU  - Akasaka, Eri
AU  - Miyoshi, Kazuchika
PY  - 2021
DA  - 2021/02/18
TI  - <i>In vitro</i> Electroporation in the Presence of CRISPR/Cas9 Reagents as a Safe and Effective Method for Producing Biallelic Knock-Out Porcine Embryos
JO  - OBM Genetics
SP  - 123
VL  - 05
IS  - 01
AB  - The production of genetically modified (GM) pigs is considered valuable in biomedical research for the development of model animals for various diseases and pigs with resistance against viral infection. The porcine genome may be modified using several methods, such as somatic cell nuclear transfer (SCNT) using GM cells as the SCNT donor, direct injection of the transgene or the genome editing components (GEC) into fertilized eggs referred to as zygotes, the in vitro electroporation (EP) of the zygotes in the presence of GECs, viral infection using retroviruses, injection of the GECs into the SCNT-treated embryos, and the in vitro EP of the SCNT-treated embryos in the presence of GECs. In our previous study, we administered a cytoplasmic injection of CRISPR/Cas9-based GEC into parthenogenetically-activated porcine oocytes (referred to as parthenotes) and observed that these oocytes comprised a mixture of genome-edited and genome-unedited cells, referred to as the “mosaic”. In contrast, when in vitro EP of the SCNT-treated embryos in the presence of GEC was performed, bi-allelic knock out (KO) of the target gene was detected in most oocytes (82%; 9/11). The production of bi-allelic KO piglets is particularly beneficial for investigating GM domestic animals as it does not require further breeding trials to obtain bi-allelic KO individuals, which would otherwise be a time-consuming and laborious task. In this context, the present study was aimed to confirm the efficiency of in vitro EP in producing bi-allelic KO porcine embryos without multiple breeding trials, for which parthenotes were subjected to EP in the presence of a ribonucleoprotein containing Cas9 protein and single-guide RNA (targeted toward GGTA1). The treated embryos were cultured until they transformed into blastocysts. The genomic DNA isolated from these blastocysts was used for molecular biology analysis to detect the possible insertion and deletion of sequences (indels) at the GGTA1 locus. Among the 32 blastocysts obtained, 21 (66%) were observed to be the bi-allelic KO ones. The remaining embryos either had a normal phenotype (25%; 8/32) or mosaic mutations (9%; 3/32). These findings confirm the efficiency of in vitro EP in producing bi-allelic KO porcine embryos.
SN  - 2577-5790
UR  - https://doi.org/10.21926/obm.genet.2101123
DO  - 10.21926/obm.genet.2101123
ID  - Sato2021
ER  -