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1.
J Reprod Dev ; 68(6): 361-368, 2022 Dec 19.
Artigo em Inglês | MEDLINE | ID: mdl-36273893

RESUMO

NANOS3 is an evolutionarily conserved gene expressed in primordial germ cells that is important for germ cell development. Germ cell deletion by NANOS3 knockout has been reported in several mammalian species, but its function in pigs is unclear. In the present study, we investigated the germline effects of NANOS3 knockout in pigs using CRISPR/Cas9. Embryo transfer of CRISPR/Cas9-modified embryos produced ten offspring, of which one showed wild-type NANOS3 alleles, eight had two mutant NANOS3 alleles, and the other exhibited mosaicism (four mutant alleles). Histological analysis revealed no germ cells in the testes or ovaries of any of the nine mutant pigs. These results demonstrated that NANOS3 is crucial for porcine germ cell production.


Assuntos
Células Germinativas , Proteínas de Ligação a RNA , Masculino , Feminino , Animais , Suínos , Proteínas de Ligação a RNA/genética , Testículo , Ovário , Diferenciação Celular , Mamíferos
2.
J Reprod Dev ; 66(1): 41-48, 2020 Feb 14.
Artigo em Inglês | MEDLINE | ID: mdl-31761839

RESUMO

Gene-modified animals, including pigs, can be generated efficiently by introducing CRISPR associated protein 9 (CRISPR/Cas9) into zygotes. However, in many cases, these zygotes tend to become mosaic mutants with various different mutant cell types, making it difficult to analyze the phenotype of gene-modified founder animals. To reduce the mosaic mutations, we introduced three-prime repair exonuclease 2 (Trex2), an exonuclease that improves gene editing efficiency, into porcine zygotes along with CRISPR/Cas9 via electroporation. Although the rate of porcine blastocyst formation decreased due to electroporation (25.9 ± 4.6% vs. 41.2 ± 2.0%), co-delivery of murine Trex2 (mTrex2) mRNA with CRISPR/Cas9 did not affect it any further (25.9 ± 4.6% vs. 31.0 ± 4.6%). In addition, there was no significant difference in the diameter of blastocysts carrying CRISPR/Cas9 (164.7 ± 10.2 µm), and those with CRISPR/Cas9 + mTrex2 (151.9 ± 5.1 µm) as compared to those from the control group (178.9 ± 9.0 µm). These results revealed that mTrex2 did not affect the development of pre-implantation embryo. We also found bi-allelic, as well as mono-allelic, non-mosaic homozygous mutations in the blastocysts. Most importantly, co-delivery of mTrex2 mRNA with CRISPR/Cas9 increased non-mosaic mutant blastocysts (29.3 ± 4.5%) and reduced mosaic mutant blastocysts (70.7 ± 4.5%) as compared to CRISPR/Cas9 alone (5.6 ± 6.4% and 92.6 ± 8.6%, respectively). These data suggest that the co-delivery of CRISPR/Cas9 and mTrex2 is a useful method to suppress mosaic mutation.


Assuntos
Blastocisto/metabolismo , Proteína 9 Associada à CRISPR/genética , Desenvolvimento Embrionário/fisiologia , Exodesoxirribonucleases/genética , Edição de Genes/métodos , Mosaicismo , Fosfoproteínas/genética , Zigoto/metabolismo , Animais , Sistemas CRISPR-Cas , Repetições Palindrômicas Curtas Agrupadas e Regularmente Espaçadas , Eletroporação , Mutação , Suínos
3.
Mol Reprod Dev ; 80(4): 334-48, 2013 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-23440873

RESUMO

Mammalian target of rapamycin (mTOR), a Ser/Thr protein kinase, is the catalytic component of two distinct signaling complexes, mTOR-raptor complex (mTORC1) and mTOR-rictor complex (mTORC2). Recently, studies have demonstrated mitosis-specific roles for mTORC1, but the functions and expression dynamics of mTOR complexes during meiotic maturation remain unclear. In the present study, to evaluate the roles of respective mTOR complexes in maternal meiosis and compare them with those in mitosis, we sought to elucidate the spatiotemporal immunolocalization of mTOR, the kinase-active Ser2448- and Ser2481-phosphorylated mTOR, and raptor and rictor during cumulus-cell mitosis and oocyte meiotic maturation in mice. mTOR principally accumulated around the chromosomes and on the spindle. Phosphorylated mTOR (Ser2448 and Ser2481) exhibited elevated fluorescence intensities in the cytoplasm and punctate localization adjacent to the chromosomes, on the spindle poles, and on the midbody during mitotic and meiotic maturation, suggesting functional homology of mTOR between the two cell division systems, despite their mechanistically distinctive spindles. Raptor colocalized with mTOR during both types of cell division, indicating that mTORC1 is predominantly associated with these events. Mitotic rictor uniformly distributed through the cytoplasm, and meiotic rictor localized around the spindle poles of metaphase-I oocytes, suggesting functional divergence of mTORC2 between mitosis and female meiosis. Based on the general function of mTORC2 in the organization of the actin cytoskeleton, we propose that mTORC1 controls spindle function during mitosis and meiosis, while mTORC2 contributes to actin-dependent asymmetric division during meiotic maturation in mice.


Assuntos
Proteínas Adaptadoras de Transdução de Sinal/metabolismo , Proteínas de Transporte/metabolismo , Células do Cúmulo/metabolismo , Meiose/fisiologia , Oócitos/metabolismo , Serina-Treonina Quinases TOR/metabolismo , Animais , Cromossomos de Mamíferos/metabolismo , Células do Cúmulo/citologia , Feminino , Alvo Mecanístico do Complexo 1 de Rapamicina , Alvo Mecanístico do Complexo 2 de Rapamicina , Camundongos , Camundongos Endogâmicos ICR , Complexos Multiproteicos/metabolismo , Oócitos/citologia , Proteína Companheira de mTOR Insensível à Rapamicina , Proteína Regulatória Associada a mTOR , Fuso Acromático/metabolismo
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