The somatic cell nuclear transfer (SCNT) technique has been applied successfully in a range of mammalian species giving rise to offspring, however, the efficiency of development to term has remained low. Oocyte meio...The somatic cell nuclear transfer (SCNT) technique has been applied successfully in a range of mammalian species giving rise to offspring, however, the efficiency of development to term has remained low. Oocyte meiotic arrest is an important option to make the SCNT more flexible and increase the number of cloned embryos produced. This paper showed that the use of butyrolactone I to arrest the meiotic division for 24 h prior to in vitro maturation (IVM) provided bovine oocytes capability of supporting development of blastocysts as efficiently as non arrested oocytes. In the SCNT group, cleavage rates were not affected by prematuration when adding butyrolactone I during IVM (57.9% vs. 62.4%; control vs. 10 μmol.L^-1 butyrolactone I), developmental rates to biastocyst were unaffected (22.0% vs. 20.3%; control vs. 10 μmol.L^-1 butyrolactone I, p〉0.05) by the addition ofbutyrolactone I during IVM in cloned embryos. Moreover, the total cell numbers of blastocyst were not affected by butyrolactone I (total nucleus numbers, 132±16.5 vs. 128±19.4, p〉0.05). In conclusion, the SCNT embryos from butyrolactone I- prematured bovine oocytes had the same developmental potential as the non treated one. The present study provided a method for laboratories of in vitro embryos production, mainly those working on the SCNT, where prematuration could be used to iiacrease the flexibility of the procedure.展开更多
基金Supported by the Scientific Research Fund of Heilongjiang Provincial Education Department (11531028)Heilongjiang Postdoctoral Fund (LBH-Z11245)
文摘The somatic cell nuclear transfer (SCNT) technique has been applied successfully in a range of mammalian species giving rise to offspring, however, the efficiency of development to term has remained low. Oocyte meiotic arrest is an important option to make the SCNT more flexible and increase the number of cloned embryos produced. This paper showed that the use of butyrolactone I to arrest the meiotic division for 24 h prior to in vitro maturation (IVM) provided bovine oocytes capability of supporting development of blastocysts as efficiently as non arrested oocytes. In the SCNT group, cleavage rates were not affected by prematuration when adding butyrolactone I during IVM (57.9% vs. 62.4%; control vs. 10 μmol.L^-1 butyrolactone I), developmental rates to biastocyst were unaffected (22.0% vs. 20.3%; control vs. 10 μmol.L^-1 butyrolactone I, p〉0.05) by the addition ofbutyrolactone I during IVM in cloned embryos. Moreover, the total cell numbers of blastocyst were not affected by butyrolactone I (total nucleus numbers, 132±16.5 vs. 128±19.4, p〉0.05). In conclusion, the SCNT embryos from butyrolactone I- prematured bovine oocytes had the same developmental potential as the non treated one. The present study provided a method for laboratories of in vitro embryos production, mainly those working on the SCNT, where prematuration could be used to iiacrease the flexibility of the procedure.
