Effects of timing of oocyte cryopreservation on in vitro development of nuclear-transferred bovine zygotes.

The utility of cryopreserved bovine oocytes as recipient cytoplasts for nuclear transfer (NT) was examined. In vitro-matured (IVM), metaphase-II oocytes were enucleated by mechanical suction and activated parthenogenetically. The cytoplasts were fused with blastomeres of in vitro-produced day-5 morulae by a DC electropulse, and then cultured up to 8 days (non-frozen controls; group I). Oocytes were frozen-thawed in 1.5-M ethylene glycol and 0.1-M sucrose before enucleation (group II), after enucleation (group III), after enucleation and aging culture (group IV), or after activation (group V). In group I, 91% of IVM oocytes could be used for NT and 89% of them fused successfully. Finally, 36% of the fused zygotes developed into blastocysts. The proportions of morphologically normal oocytes after thawing in groups IV and V (70 and 69%, respectively) were higher than in group III (56%), and the proportion of IVM oocytes used for NT in group IV (56%) was higher than those in groups II, III, and V (33%, 35%, and 38%, respectively). Fusion rates of the NT zygotes in groups III, IV, and V (90%, 88%, and 88%, respectively) were higher than the rate in group II (75%). Rates of development into blastocysts of the fused zygotes in groups II, III, IV, and V were 0%, 3%, 2%, and 6%, respectively (P < 0.05, group II vs. groups III, IV, and V). Developmental kinetics and cell numbers of the blastocysts were similar among the groups. It was suggested that timing of oocyte cryopreservation is among the factors influencing efficiency of production of cloned embryos in cattle.