[Adams C. E. (1960). Prenatal mortality in the rabbit, Oryctolagus cuniculus. J. Reprod. Fertil., 1: 36-44.]Search in Google Scholar
[Cervera R. P., Garcia-Ximenez F. (2003). Oocyte age and nuclear donor cell type affect the technical efficiency of somatic cloning in rabbits. Zygote, 11 (2): 151-158.]Search in Google Scholar
[Challah-Jacques M., Chesné P., Renard J. P. (2003). Production of cloned rabbits by somatic nuclear transfer. Cloning Stem Cells, 5(4): 295-299.]Search in Google Scholar
[Chesné P., Adenot P. G., Viglietta C., Baratte M., Boulanger L., Renard J. P. (2002). Cloned rabbits produced by nuclear transfer from adult somatic cells. Nat. Biotechnol., 20 (4): 366-369.]Search in Google Scholar
[Dean W., Santos F., Reik W. (2003). Epigenetic reprogramming in early mammalian development and following somatic nuclear transfer. Semin. Cell Dev. Biol., 14 (1): 93-100.]Search in Google Scholar
[Dinnyés A., Dai Y., Barber M., Liu L., Xu J., Zhou P., Yang X. (2001). Development of cloned embryos from adult rabbit fibroblasts: effect of activation treatment and donor cell preparation. Biol. Reprod., 64: 257-263.]Search in Google Scholar
[Hiendleder S., Mund C., Reichenbach H. D., Wenigerkind H., Brem G., Zakhartchenko V., Lyko F., Wolf E. (2004). Tissue-specific elevated genomic cytosine methylation levels are associated with an overgrowth phenotype of bovine fetuses derived by in vitro techniques. Biol. Reprod., 71 (1): 217-223.]Search in Google Scholar
[Inoue F., Matsuda J., Ohkoshi K., Furusawa T., Takahashi S., Sasada H., Sato E., Tokunaga T. (2006). Differences in gene expression patterns between somatic cell nuclear transfer embryos constructed with either rabbit granulosa cells or their derivatives. Anim. Reprod. Sci., 93: 76-87.]Search in Google Scholar
[Joung S. Y., Kim H. J., Choi W. S., Im K. S., Lee S. H., Park C. S., Jin D. (2004). Effect of transferring in vitro-cultured rabbit embryos to recipient oviducts on mucin coat deposition, implantation and development. Zygote, 12: 215-219.]Search in Google Scholar
[Li S., Chen X., Fang Z., Shi J., Sheng H. Z. (2006). Rabbits generated from fibroblasts through nuclear transfer. Reproduction, 131: 1085-1090.]Search in Google Scholar
[Li S., Chen X., Shi J., Guo Y., Yin C., Du L., Sheng H. Z. (2009 a). Cloning rabbits from fetal fibroblasts. Livest. Sci., 122: 77-80.10.1016/j.livsci.2008.07.019]Search in Google Scholar
[Li S., Guo Y., Shi J., Yin C., Xing F., Xu L., Zhang C., Liu T., Li Y., Li H., Du L., Chen X. (2009 b). Transgene expression of enhanced green fluorescent protein in cloned rabbits generated from in vitro-transfected adult fibroblasts. Transgenic Res., 18: 227-235.10.1007/s11248-008-9227-y19051052]Search in Google Scholar
[Liu J. L., Sung L. Y., Du F., Julian M., Jiang S., Barber M., Xu J., Tian X. C., Yang X. (2004). Differential development of rabbit embryos derived from parthenogenesis and nuclear transfer. Mol. Reprod. Dev., 68 (1): 58-64.]Search in Google Scholar
[Meng Q., Polgar Z., Liu J., Dinnyes A. (2009). Live birth of somatic cell-cloned rabbits following trichostatin A treatment and cotransfer of parthenogenetic embryos. Cloning Stem Cells., 11 (1): 203-208.]Search in Google Scholar
[Mitalipov S. M., White K. L., Farrar V. R., Morrey J., Reed W. A. (1999). Development of nuclear transfer and parthenogenetic rabbit embryos activated with inositol 1,4,5-trisphosphate. Biol. Reprod., 60: 821-827.]Search in Google Scholar
[Santos F., Zakhartchenko V., Stojkovic M., Peters A., Jenuwein T., Wolf E., Reik W., Dean W. (2003). Epigenetic marking correlates with developmental potential in cloned bovine preimplantation embryos. Curr. Biol., 13: 1116-1121.]Search in Google Scholar
[Shi W., Dirim F., Wolf E., Zakhartchenko V., Haaf T. (2004). Methylation reprogramming and chromosomal aneuploidy in in vivo fertilized and cloned rabbit preimplantation embryos. Biol. Reprod., 71: 340-347.]Search in Google Scholar
[Skrzyszowska M., Smorąg Z., Słomski R., Kątska-Książkiewicz L., Kalak R., Michalak E., Wielgus K., Lehmann J., Lipiński D., Szalata M., Pławski A., Samiec M., Jura J., Gajda B., Ryńska B., Pieńkowski M. (2006). Generation of transgenic rabbits by the novel technique of chimeric somatic cell cloning. Biol. Reprod., 74: 1114-1120.]Search in Google Scholar
[Stice S. L., Robl J. M. (1988). Nuclear reprogramming in nuclear transplant rabbit embryos. Biol. Reprod., 39 (3): 657-664.]Search in Google Scholar
[Xu J., Sung L.-Y., Zhang J., Tian X., Chen Y. E., Yang X., Du F. (2007). Trichostatin A improved the quality of rabbit nuclear transfer embryos. Reprod. Fertil. Dev., 19 (1), p. 165.]Search in Google Scholar
[Yang F., Hao R., Kesser B., Brem G., Wolf E., Zakhartchenko V. (2007). Rabbit somatic cell cloning: effect of donor cell type, histone acetylation status and chimeric embryo complementation. Reproduction, 133: 219-230.]Search in Google Scholar
[Yin X. J., Tani T., Kato Y., Tsunoda Y. (2000). Development of rabbit parthenogenetic oocytes and nuclear-transferred oocytes receiving cultured cumulus cells. Theriogenology, 54 (9): 1469-1476.]Search in Google Scholar
[Zakhartchenko V., Flisikowska T., Li S., Richter T., Wieland H., Durkovic M., Rottmann O., Kessler B., Gungor T., Brem G., Kind A., Wolf E., Schnieke A. (2011). Cell-mediated transgenesis in rabbits: chimeric and nuclear transfer animals. Biol. Reprod., 84: 229-237.]Search in Google Scholar