원문정보
초록
영어
Cloning or somatic cell nuclear transfer (SCNT) using adult somatic cell to derive cloned embryos is a promising new technology with potential applications in both agriculture and regenerative medicine. Mammalian embryos derived by nuclear transfer are capable of development to the blastocyst stage with a relatively high efficiency of 30~ 50%. However, in full-time development, usually only 2% of NT embryos can result in live births due to abnormalities in placenta formation. In SCNT embryos, the donor cell nucleus is epigenetically reprogrammed by oocyte cytoplasm during development. Incomplete reprogramming of the donor cell genome is considered a major reason for low cloning efficiency. Aberrant epigenetic modifications include DNA methylation, histone modification and X-chromosome-inactivation. Due to a lack of basic knowledge regarding the embryos following nuclear transfer, the success rate of cloning is low. Therefore, elucidation of the molecular mechanism of SCNT embryo development will be of great value for further research. MicroRNAs (microRNA) are single-strand RNA molecules of about 19 23 nucleotides in length, which regulate gene expression by imperfect base pairing with target mRNA, subsequently guiding mRNA cleavage or translational repression. Since the first discovery and functional annotation in 1993 of the small RNA, lin-4 and let-7, which are involved in developmental timing and gene regulation during C. elegans larval development, microRNAs have received scientific attention. Now hundreds of microRNAs have been identified in various multicellular organisms, and many microRNAs have been shown to be evolutionarily conserved. The roles proposed for this novel class of tiny RNA molecules are diverse. They are likely to be involved in developmental timing, differentiation, cell proliferation, signaling pathways, apoptosis, metabolism, heterochromatin formation, genome rearrangement, brain development and carcinogenesis. Currently (2006- present) we are working to determine the role of microRNAs on the epigenetic regulation of fertilized and cloned embryo development. The general hypothesis of our research is that genetic and epigenetic factors regulate the development of preimplantation mammalian embryos, and aberrant modulations in cloned embryos are causes of abnormal development and low success rate of cloned embryos.