The giant panda skeletal muscle cells, uterus epithelial cells and mammary gland cells from an adult individual were cultured and used as nucleus donor for the construction of intenpecies embryos by transferring them into enucleated rabbit eggs. All the three kinds of somatic cells were able to reprogram in rabbit ooplasm and support early embryo development, of which mammary gland cells were proven to be the best, followed by uterus epithelial cells and skeletal muscle cells. The experiments showed that direct injection of mammary gland cell into enucleated rabbit ooplasm, combined within vim development in ligated rabbit oviduct, achieved higher blastocyst development thanin vitro culture after the somatic cell was injected into the perivitelline space and fused with the enucleated egg by electrical stimulation. The chromosome analysis demonstrated that the genetic materials in reconstructed blastocyst cells were the same as that in panda somatic cells. In addition, giant panda mitochondrial DNA (mtDNA) was shown to exist in the intenpecies reconstructed blastocyst. The data suggest that (i) the ability of ooplasm to dedifferentiate somatic cells is not speciesspecific; (ii) there is compatibility between intenpecies somatic nucleus and ooplasm during early development of the reconstructed egg.
The interaction between nucleus and cytoplasm can be explored through
nuclear transfer. We describe here another tool to investigate this
interaction: MII meiotic apparatus transfer (MAT) between mouse oocytes. In
this study, the MII oocyte meiotic apparatus or spindle from C57BL/6 mice, a
black strain, was transferred into an enucleated metaphase oocyte from
Kunming mouse, a white strain. The results showed that the enucleation rate
by treating oocytes with 3% sucrose was 100%, but the electrofusion
efficiency was very low, with only 17.6% of reconstructed karyoplast-recipient
cytoplasm pairs fused. When the fused oocytes were exposed to spermatozoa
from C57BL/6 mice, 9 of 11 (82%) were fertilised. Eight reconstructed
embryos at 1- to 4-cell stages were transferred into the oviducts of two
synchronously pregnant Kunming strain fosters and one delivered two normal
C57BL/6 offspring. This study indicates that MII meiotic apparatus or
spindle sustains normal structure and function after micromanipulation
and electrofusion. MAT provides a model for further research on the
application of this technique to assisted human reproduction.
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