普通狨猴体细胞克隆胚胎着床前发育的研究。

Yusuke Sotomaru, Reiko Hirakawa, Akiko Shimada, Seiji Shiozawa, Ayako Sugawara, Ryo Oiwa, Asako Nobukiyo, Hideyuki Okano, Norikazu Tamaoki, Tatsuji Nomura, Eiso Hiyama, Erika Sasaki
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引用次数: 9

摘要

体细胞核移植技术已被应用于多种哺乳动物,以产生克隆动物;然而,标准化的方法并不适用于所有物种。我们的目标是在这里开发体细胞克隆非人灵长类动物的最佳程序,使用常见的狨猴。首先,我们证实了电刺激(150 V/mm, 50微秒x 2,20分钟间隔的三个周期)成功诱导体外成熟卵母细胞的孤雌生殖激活,并将此条件应用于后续实验中的卵激活过程。然后,在激活卵处理前1小时、激活卵处理后1小时或激活卵处理后1小时进行核移植到去核受者卵母细胞。在激活前1小时进行核移植时,观察到最高的发育率,但没有克隆胚胎发育超过8细胞期。为了探讨克隆胚胎发育潜力低的原因,我们进行了一项研究,以确定受体卵浆中中期II (MII)染色体的存在是否对发育潜力有影响。结果表明,只有携带MII染色体的供体细胞移植到受体细胞中产生的四倍体克隆胚胎发育成囊胚(66.7%)。相比之下,使用去核卵母细胞产生的孤雌胚胎和克隆胚胎(无论是二倍体还是四倍体)都不能发育过8细胞阶段。这些结果表明,MII染色体或靠近MII染色体的细胞质在普通狨猴克隆胚胎的发育中起着重要作用。
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Preimplantation development of somatic cell cloned embryos in the common marmoset (Callithrix jacchus).

The somatic cell nuclear transfer technique has been applied to various mammals to produce cloned animals; however, a standardized method is not applicable to all species. We aimed here to develop optimum procedures for somatic cell cloning in nonhuman primates, using common marmosets. First, we confirmed that parthenogenetic activation of in vitro matured oocytes was successfully induced by electrical stimulation (three cycles of 150 V/mm, 50 microsec x 2, 20 min intervals), and this condition was applied to the egg activation procedure in the subsequent experiments. Next, nuclear transfer to recipient enucleated oocytes was performed 1 h before, immediately after, or 1 h after egg activation treatment. The highest developmental rate was observed when nuclear transfer was performed 1 h before activation, but none of the cloned embryos developed beyond the eight-cell stage. To investigate the causes of the low developmental potential of cloned embryos, a study was performed to determine whether the presence of metaphase II (MII) chromosome in recipient ooplasm has an effect on developmental potential. As a result, only tetraploid cloned embryos produced by transferring a donor cell into a recipient bearing the MII chromosome developed into blastocysts (66.7%). In contrast, neither parthenogenetic embryos nor cloned embryos (whether diploid or tetraploid) produced using enucleated oocytes developed past the eight-cell stage. These results suggest that MII chromosome, or cytoplasm proximal to the MII chromosome, plays a major role in the development of cloned embryos in common marmosets.

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