Blastocysts produced by nuclear transfer between chicken blastodermal cells and rabbit oocytes.

Interspecies nuclear transfer (INT) has been used as an invaluable tool for studying nucleus-cytoplasm interactions; and it may also be a method for rescuing endangered species whose oocytes are difficult to obtain. In the present study, we investigated interaction of the chicken genome with the rabbit oocyte cytoplasm. When chicken blastodermal cells were transferred into the perivitelline space of rabbit oocytes, 79.

[Effects of different treatments on oocytes activation and parthenogenesis in mouse].

In order to study effects of electro-fusion and strontium chloride (SrCl2) activation in nuclear transfer experiment on activation and development of mouse oocytes, concentration and treatment duration of SrCl2, electro-pulse and electro-pulse combining SrCl2 were used to activate mouse oocytes which were obtained after hCG 17h. Activated oocytes were cultured in vitro in CZB medium. The results were as follows: 82.

Quantitative analysis of mitochondrial DNAs in macaque embryos reprogrammed by rabbit oocytes.

In cloned animals where somatic cell nuclei and oocytes are from the same or closely related species, the mitochondrial DNA (mtDNA) of the oocyte is dominantly inherited. However, in nuclear transfer (NT) embryos where nuclear donor and oocyte are from two distantly related species, the distribution of the mtDNA species is not known. Here we determined the levels of macaque and rabbit mtDNAs in macaque embryos reprogrammed by rabbit oocytes.

Mitochondrial DNA heteroplasmy in calves cloned by using adult somatic cell.

Adult somatic cell cloned calves were produced by somatic cell nuclear transfer prepared by fusion of cultured ear fibroblast from a Holstein cow into enucleated oocytes of Luxi Yellow cow. In order to determinate the source of mitochondrial DNA of cloned calves, we designed the breed-specific PCR primers by aligning the known D-loop sequences of Bos taurus and analyzed the displacement loop sequences of five live cloned calves by breed-specific primers PCR. The results demonstrated that mtDNA originated from Holstein breed and that from Luxi breed co-exist in all five live calves.

Comparison of developmental capacity for intra- and interspecies cloned cat (Felis catus) embryos.

Interspecies nuclear transfer is an invaluable tool for studying nucleus-cytoplasm interactions; and at the same time, it provides a possible alternative to clone animals whose oocytes are difficult to obtain. In the present study, we investigated the possibility of cloning cat embryos using rabbit oocytes, and compared the developmental capacity; the timing of embryogenesis of the cat-rabbit cloned embryos with that of the cat-cat or the rabbit-rabbit cloned embryos. When cultured in M199, the rate of blastocyst formation of the cat-rabbit embryos was 6.

In vitro development and mitochondrial fate of macaca-rabbit cloned embryos.

Interspecies cloning may be used as an effective method to conserve highly endangered species and to support the development of non-human primate animal models for studying therapeutic cloning and nuclear-cytoplasm interaction. The use of the monkey model for biomedical research can avoid legal, ethical, and experimental limitations encountered in a clinical situation. We describe in this study the in vitro development of macaca-rabbit embryos produced by fusing macaca fibroblasts with enucleated rabbit oocytes and examine the fate of mitochondrial DNA in these embryos.

The effects of different donor cells and passages on development of reconstructed embryos.

In order to study the effects of different donor cells and passages on development of nuclear transfer embryos, we constructed embryos by electrofusing several kinds of donor cells into enucleated M II oocytes from Kun Ming (KM) mouse. These cells include 2-cell embryonic blastomeres, KMW embryonic stem (ES) cells, fetal fibroblast, ear fibroblast, tail tip fibroblast, sertoil cells and spermatogonia. Meanwhile, we compared the effects of passage numbers of fetal fibroblast cells on developmental competency after nuclear transfer.

Interspecies implantation and mitochondria fate of panda-rabbit cloned embryos.

Somatic cell nuclei of giant pandas can dedifferentiate in enucleated rabbit ooplasm, and the reconstructed eggs can develop to blastocysts. In order to observe whether these interspecies cloned embryos can implant in the uterus of an animal other than the panda, we transferred approximately 2300 panda-rabbit cloned embryos into 100 synchronized rabbit recipients, and none became pregnant. In another approach, we cotransferred both panda-rabbit and cat-rabbit interspecies cloned embryos into the oviducts of 21 cat recipients.