Disruption of the myostatin gene in porcine primary fibroblasts and embryos using zinc-finger nucleases

Xian-Ju Huang; Hong-Xiao Zhang; Huili Wang; Kai Xiong; Ling Qin; Honglin Liu

doi:10.14348/molcells.2014.2209

Disruption of the myostatin gene in porcine primary fibroblasts and embryos using zinc-finger nucleases

Xian-Ju Huang, Hong-Xiao Zhang, Huili Wang, Kai Xiong, Ling Qin, Honglin Liu

8 Citations (Scopus)

Abstract

Myostatin represses muscle growth by negatively regulating the number and size of muscle fibers. Myostatin lossof- function can result in the double-muscling phenotype and increased muscle mass. Thus, knockout of myostatin gene could improve the quality of meat from mammals. In the present study, zinc finger nucleases, a useful tool for generating gene knockout animals, were designed to target exon 1 of the myostatin gene. The designed ZFNs were introduced into porcine primary fibroblasts and early implantation embryos via electroporation and microinjection, respectively. Mutations around the ZFNs target site were detected in both primary fibroblasts and blastocysts. The proportion of mutant fibroblast cells and blastocyst was 4.81% and 5.31%, respectively. Thus, ZFNs can be used to knockout myostatin in porcine primary fibroblasts and early implantation embryos.

Original language	English
Journal	Molecules and Cells
Volume	37
Issue number	4
Pages (from-to)	302-306
Number of pages	5
ISSN	1016-8478
DOIs	https://doi.org/10.14348/molcells.2014.2209
Publication status	Published - Apr 2014
Externally published	Yes

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title = "Disruption of the myostatin gene in porcine primary fibroblasts and embryos using zinc-finger nucleases",

abstract = "Myostatin represses muscle growth by negatively regulating the number and size of muscle fibers. Myostatin lossof- function can result in the double-muscling phenotype and increased muscle mass. Thus, knockout of myostatin gene could improve the quality of meat from mammals. In the present study, zinc finger nucleases, a useful tool for generating gene knockout animals, were designed to target exon 1 of the myostatin gene. The designed ZFNs were introduced into porcine primary fibroblasts and early implantation embryos via electroporation and microinjection, respectively. Mutations around the ZFNs target site were detected in both primary fibroblasts and blastocysts. The proportion of mutant fibroblast cells and blastocyst was 4.81% and 5.31%, respectively. Thus, ZFNs can be used to knockout myostatin in porcine primary fibroblasts and early implantation embryos.",

author = "Xian-Ju Huang and Hong-Xiao Zhang and Huili Wang and Kai Xiong and Ling Qin and Honglin Liu",

year = "2014",

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language = "English",

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T1 - Disruption of the myostatin gene in porcine primary fibroblasts and embryos using zinc-finger nucleases

AU - Huang, Xian-Ju

AU - Zhang, Hong-Xiao

AU - Wang, Huili

AU - Xiong, Kai

AU - Qin, Ling

AU - Liu, Honglin

PY - 2014/4

Y1 - 2014/4

N2 - Myostatin represses muscle growth by negatively regulating the number and size of muscle fibers. Myostatin lossof- function can result in the double-muscling phenotype and increased muscle mass. Thus, knockout of myostatin gene could improve the quality of meat from mammals. In the present study, zinc finger nucleases, a useful tool for generating gene knockout animals, were designed to target exon 1 of the myostatin gene. The designed ZFNs were introduced into porcine primary fibroblasts and early implantation embryos via electroporation and microinjection, respectively. Mutations around the ZFNs target site were detected in both primary fibroblasts and blastocysts. The proportion of mutant fibroblast cells and blastocyst was 4.81% and 5.31%, respectively. Thus, ZFNs can be used to knockout myostatin in porcine primary fibroblasts and early implantation embryos.

AB - Myostatin represses muscle growth by negatively regulating the number and size of muscle fibers. Myostatin lossof- function can result in the double-muscling phenotype and increased muscle mass. Thus, knockout of myostatin gene could improve the quality of meat from mammals. In the present study, zinc finger nucleases, a useful tool for generating gene knockout animals, were designed to target exon 1 of the myostatin gene. The designed ZFNs were introduced into porcine primary fibroblasts and early implantation embryos via electroporation and microinjection, respectively. Mutations around the ZFNs target site were detected in both primary fibroblasts and blastocysts. The proportion of mutant fibroblast cells and blastocyst was 4.81% and 5.31%, respectively. Thus, ZFNs can be used to knockout myostatin in porcine primary fibroblasts and early implantation embryos.

U2 - 10.14348/molcells.2014.2209

DO - 10.14348/molcells.2014.2209

M3 - Journal article

C2 - 24802055

SN - 1016-8478

VL - 37

SP - 302

EP - 306

JO - Molecules and Cells

JF - Molecules and Cells

IS - 4

ER -

Disruption of the myostatin gene in porcine primary fibroblasts and embryos using zinc-finger nucleases

Abstract

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