Germline transmission of MSTN knockout cattle via CRISPR-Cas9

Although the production of several founder animals (F0) for gene editing in livestock has been reported in cattle, very few studies have assessed germline transmission to the next generation due to the long sexual maturation and gestation periods. The present study aimed to assess the germline trans...

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Veröffentlicht in:	Theriogenology 2022-10, Vol.192, p.22-27
Hauptverfasser:	Gim, Gyeong-Min, Uhm, Kyeong-Hyun, Kwon, Dong-Hyeok, Kim, Min-Ji, Jung, Dae-Jin, Kim, Dae-Hyun, Yi, Jun-Koo, Ha, Jae-Jung, Yum, Soo-Young, Son, Woo-Jae, Lee, Ji-Hyun, Park, Ji-Hyun, Song, Kil-Young, Lee, Won-Wu, Jang, Goo
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Sprache:	eng
Schlagworte:	CRISPR-Cas9 Electroporation Gene editing Germline transmission MSTN
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creator	Gim, Gyeong-Min Uhm, Kyeong-Hyun Kwon, Dong-Hyeok Kim, Min-Ji Jung, Dae-Jin Kim, Dae-Hyun Yi, Jun-Koo Ha, Jae-Jung Yum, Soo-Young Son, Woo-Jae Lee, Ji-Hyun Park, Ji-Hyun Song, Kil-Young Lee, Won-Wu Jang, Goo
description	Although the production of several founder animals (F0) for gene editing in livestock has been reported in cattle, very few studies have assessed germline transmission to the next generation due to the long sexual maturation and gestation periods. The present study aimed to assess the germline transmission of MSTN mutations (−12bp deletion) in MSTN mutant F0 male and female cattle. For this purpose, oocytes and semen were collected after the sexual maturation of MSTN cattle, and embryos produced by in vitro fertilization were analyzed. In addition, the embryos were subjected to additional gene (PRNP) editing using electroporation. Embryos produced by in vitro fertilization with MSTN male and female cattle were transferred to a surrogate, and one calf was successfully born. MSTN heterozygous mutation was shown by sequencing of the F1 calf, which had no health issues. As a further experiment, using electroporation, additional gene-edited embryos fertilized with the MSTN male sperm showed a high mutation rate of PRNP (86.2 ± 3.4%). These data demonstrate that the cattle produced through gene editing matured without health issues and had transmitted MSTN mutation from the germ cells. Also, additional mutation of embryos fertilized with the MSTN male sperm could enable further mutagenesis using electroporation. •Application of CRISPR/Cas9 for improving trait in cattle.•Long-term health monitoring of MSTN-mutated cattle.•Stable germline transmission of MSTN-mutated female or male.•Establishment of effective gene-edited embryo production derived from the semen of a MSTN mutated male via electroporation.
doi_str_mv	10.1016/j.theriogenology.2022.08.021
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subjects	CRISPR-Cas9 Electroporation Gene editing Germline transmission MSTN
title	Germline transmission of MSTN knockout cattle via CRISPR-Cas9
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