In order to investigate the effects of different kinds of nuclear recipients from Kunming (KM) mouse on developmental potential of somatic nuclear transfer em- bryos, the enucleated MⅡ oocytes, enucleated zygotes and 2-cell blastomere were used to produce cloned mouse embryos. Using fibroblast deriving from C57/BL6 ear tissue as nuclear donor, we produced cloned embryos by transferring the fibroblast nuclei into enucleated KM mouse oocytes (single nuclear transfer, SNT), transferring pronuclei from the SNT embryos into enucleated KM zygotes (nuclear into zygote, NZ), and 2-cell blastomere nuclei from SNT embryos into enucleated KM mouse oocytes (nuclear into oocytes, NO); tetraploid embryos (tetraploid embryos, TE) were obtained by fusing two blastomeres, one is from the SNT cloned embryos, and the other from normal 2-cell KM mouse embryos. In group SNT, the cloned embryos could not develop beyond 8-cell stage and the rate of 8-cell stage is only 0.3%; in group NO, the reconstructed embryos could develop to morula stage, the rate of 8-cell stage was significantly greater than that of SNT group (P < 0.05); in group NZ, the development rate was further improved, and the reconstructed embryos could develop into blastocyst stage, the rate of blastocyst was 1.9%; in group TE, as high as 62.3% of the reconstructed embryos could develop into blastocyst. Results suggested that different nuclear recipients could significantly affect the developmental potential of cloned mouse embryos; KM MⅡ oocyte cytoplasm was not so effective as zygotes to reprogram the mouse somatic cell nuclei; serial nuclear transfer could improve the developmental potential of cloned mouse embryos.