Numerous factors affect on the developmental competence of cloned embryos, and one of the factors might be the disturbed synchronization of nuclear and cytoplasm maturation. Roscovitine, a purine known to specifically inhibit M-phase promoting factor (MPF) kinase activity by blocking the ATP in numerous cell systems, has been successfully used in maintaining porcine oocytes at GV stage without affecting their developmental potential. However, developmental ability of roscovitine treated porcine oocytes after nuclear transfer has not been evaluated. The purpose of this study was to examine the development of nuclear transferred porcine embryos after meiotic inhibition with roscovitine (ROS). Cumulus-oocyte complexes (COCs) were collected from antral follicles of slaughtered prepubertal gilts. COCs were cultured in pre-maturation medium (TCM-199 containing 50 �M Roscovitine) for 24 h, and then further cultured in conventional maturation medium for 44 h. A control group was cultured in the maturation medium for 44 h. Matured oocytes were enucleated and a porcine fetus cell was inserted into each enucleated oocyte. Couplets were simultaneously fused and activated with electric pulse of two 1.2 kV/cm for 30 �s. Nuclear transferred (NT) embryos were cultured in PZM-1 medium for 6 days (five replicates). Apoptotic cell death was analyzed by using a TUNEL assay and total cell number was examined by Hoechest 33342 counterstaining. At 3 h after fusion, NT embryos were fixed for microfilament staining. Data were analyzed by ANOVA and Student's t-test. The rates of fusion, cleavage, and blastocyst formation of the ROS-treated group (85, 68, and 18%, respectively) after nuclear transfer did not differ from control (78, 76, and 16%, respectively). The cell number in blastocysts of the ROS-treated group (30.8 � 10.6) was significantly lower than that of the control (42.3 � 13.7) (P < 0.01), but the mean proportion of apoptotic cells was not different between the two groups (6.9 � 7.1 and 4.8 � 4.9% for control and ROS group, respectively). Recovery of microfilaments after fusion was delayed in NT embryos derived from ROS-treated oocytes. This study demonstrated that porcine oocytes pre-cultured for 24 h in presence of roscovitine can be developed to blastocysts after somatic cell nuclear transfer. This could provide flexibility for studying porcine oocyte development and embryo cloning.