W. Tadros and H. D. Lipshitz, The maternal-to-zygotic transition: a play in two acts, Development, vol.136, pp.3033-3042, 2009.

L. Li, P. Zheng, and J. Dean, Maternal control of early mouse development, Development, vol.137, pp.859-870, 2010.

S. L. Palmieri, W. Peter, H. Hess, and H. R. Scholer, Oct-4 transcription factor is differentially expressed in the mouse embryo during establishment of the first 2 extraembryonic cell lineages involved in implantation, Developmental Biology, vol.166, pp.259-267, 1994.

A. A. Avilion, S. K. Nicolis, L. H. Pevny, L. Perez, and N. Vivian, Multipotent cell lineages in early mouse development depend on SOX2 function, Genes & Development, vol.17, pp.126-140, 2003.

K. Foygel, B. Choi, S. Jun, D. E. Leong, and A. Lee, A Novel and Critical Role for Oct4 as a Regulator of the Maternal-Embryonic Transition, Plos One, vol.3, 2008.

H. Pan and R. M. Schultz, SOX2 Modulates Reprogramming of Gene Expression in Two-Cell Mouse Embryos, Biology of Reproduction, vol.85, pp.409-416, 2011.

M. Keramari, J. Razavi, K. A. Ingman, C. Patsch, and F. Edenhofer, Sox2 Is Essential for Formation of Trophectoderm in the Preimplantation Embryo, Plos One, vol.5, 2010.

H. Niwa, J. Miyazaki, and A. G. Smith, Quantitative expression of Oct-3/4 defines differentiation, dedifferentiation or self-renewal of ES cells, Nature Genetics, vol.24, pp.372-376, 2000.

R. A. Young, Control of the Embryonic Stem Cell State, Cell, vol.144, pp.940-954, 2011.

K. Mitsui, Y. Tokuzawa, H. Itoh, K. Segawa, and M. Murakami, The homeoprotein Nanog is required for maintenance of pluripotency in mouse epiblast and ES cells, Cell, vol.113, pp.631-642, 2003.

D. J. Rodda, J. L. Chew, L. H. Lim, Y. H. Loh, and B. Wang, Transcriptional regulation of Nanog by Oct4 and Sox2, Journal of Biological Chemistry, vol.280, pp.24731-24737, 2005.

R. Jaenisch and R. Young, Stem cells, the molecular circuitry of pluripotency and nuclear reprogramming, Cell, vol.132, pp.567-582, 2008.

D. C. Hay, L. Sutherland, J. Clark, and T. Burdon, Oct-4 knockdown induces similar patterns of endoderm and trophoblast differentiation markers in human and mouse embryonic stem cells, Stem Cells, vol.22, pp.225-235, 2004.

M. M. Matin, J. R. Walsh, P. J. Gokhale, J. S. Draper, and A. R. Bahrami, Specific knockdown of Oct4 and beta 2-microglobulin expression by RNA interference in human embryonic stem cells and embryonic carcinoma cells, Stem Cells, vol.22, pp.659-668, 2004.

S. Masui, Y. Nakatake, Y. Toyooka, D. Shimosato, and R. Yagi, Pluripotency governed by Sox2 via regulation of Oct3/4 expression in mouse embryonic stem cells, Nature Cell Biology, vol.9, pp.625-626, 2007.

L. Hyslop, M. Stojkovic, L. Armstrong, T. Walter, and P. Stojkovic, Downregulation of NANOG induces differentiation of human embryonic stem cells to extraembryonic lineages, Stem Cells, vol.23, pp.1035-1043, 2005.

D. W. Huangfu, K. Osafune, R. Maehr, W. Guo, and A. Eijkelenboom, Induction of pluripotent stem cells from primary human fibroblasts with only Oct4 and Sox2, Nature Biotechnology, vol.26, pp.1269-1275, 2008.

K. Takahashi and S. Yamanaka, Induction of pluripotent stem cells from mouse embryonic and adult fibroblast cultures by defined factors, Cell, vol.126, pp.663-676, 2006.

X. P. Li, Y. Kato, and Y. Tsunoda, Comparative analysis of development-related gene expression in mouse preimplantation embryos with different developmental potential, Molecular Reproduction and Development, vol.72, pp.152-160, 2005.

D. K. Berg, C. S. Smith, D. J. Pearton, D. N. Wells, and R. Broadhurst, Trophectoderm Lineage Determination in Cattle, Developmental Cell, vol.20, pp.244-255, 2011.

N. A. Telford, A. J. Watson, and G. A. Schultz, Transition from maternal to embryonic control in early mammalian development -a comparison of several species, Molecular Reproduction and Development, vol.26, pp.90-100, 1990.

M. Van-eijk, M. A. Van-rooijen, S. Modina, L. Scesi, and G. Folkers, Molecular cloning, genetic mapping, and developmental expression of bovine POU5F1, Biology of Reproduction, vol.60, pp.1093-1103, 1999.

N. Kirchhof, J. W. Carnwath, E. Lemme, K. Anastassiadis, and H. Scholer, Expression pattern of Oct-4 in preimplantation embryos of different species, Biology of Reproduction, vol.63, pp.1698-1705, 2000.

E. W. Kuijk, D. Puy, L. Van-tol, H. Oei, C. Haagsman et al., Differences in early lineage segregation between mammals, Developmental Dynamics, vol.237, pp.918-927, 2008.

S. B. Cao, F. Wang, Z. S. Chen, Z. Liu, and C. Mei, Isolation and Culture of Primary Bovine Embryonic Stem Cell Colonies by a Novel Method, Journal of Experimental Zoology Part a-Ecological Genetics and Physiology, vol.311, pp.368-376, 2009.

W. Shi, V. Zakhartchenko, and E. Wolf, Epigenetic reprogramming in mammalian nuclear transfer, Differentiation, vol.71, pp.91-113, 2003.

S. L. Smith, R. E. Everts, X. C. Tian, F. L. Du, and L. Y. Sung, Global gene expression profiles reveal significant nuclear reprogramming by the blastocyst stage after cloning, Proceedings of the National Academy of Sciences of the United States of America, vol.102, pp.17582-17587, 2005.

T. Ykay, Role of the donor nuclei in cloning efficiency: can the ooplasm reprogram any nucleus?, Int J Dev Biol, vol.54, pp.1623-1629, 2010.

Z. Beyhan, P. J. Ross, A. E. Iager, A. M. Kocabas, and K. Cunniff, Transcriptional reprogramming of somatic cell nuclei during preimplantation development of cloned bovine embryos, Developmental Biology, vol.305, pp.637-649, 2007.

L. C. Bui, A. V. Evsikov, D. R. Khan, C. Archilla, and N. Peynot, Retrotransposon expression as a defining event of genome reprogramming in fertilized and cloned bovine embryos, Reproduction, vol.138, pp.289-299, 2009.

A. Pavlok, J. Motlik, J. Kanka, and J. Fulka, Invitro techniques of bovine oocyte maturation, fertilization and embryo culture resulting in the birth of a calf, Reproduction Nutrition Development, vol.29, pp.611-616, 1989.

A. Pavlok, J. Motlik, J. Kanka, and J. Fulka, In vitro techniques of bovine oocyte maturation, fertilization and embryo culture resulting in the birth of a calf, Reprod Nutr Dev, vol.29, pp.611-616, 1989.
URL : https://hal.archives-ouvertes.fr/hal-00899094

J. J. Parrish, J. L. Susko-parrish, M. L. Leibfried-rutledge, E. S. Critser, and W. H. Eyestone, Bovine in vitro fertilization with frozen-thawed semen, Theriogenology, vol.25, pp.591-600, 1986.

J. P. Renard, J. Maruotti, A. Jouneau, and X. Vignon, Nuclear reprogramming and pluripotency of embryonic cells: Application to the isolation of embryonic stem cells in farm animals, Theriogenology, vol.68, pp.196-205, 2007.

I. Robertson and R. E. Nelson, Manual of International Embryo Transfer Society, 1998.

K. Goossens, P. Mv, S. Av, J. Vandesompele, and Z. Av, Selection of reference genes for quantitative real-time PCR in bovine preimplantation embryos, Bmc Developmental Biology, vol.5, 2005.

S. A. Degrelle, E. Campion, C. Cabau, F. Piumi, and P. Reinaud, Molecular evidence for a critical period in mural trophoblast development in bovine blastocysts, Developmental Biology, vol.288, pp.448-460, 2005.

I. Hue, J. P. Renard, and C. Viebahn, Brachyury is expressed in gastrulating bovine embryos well ahead of implantation, Development Genes and Evolution, vol.211, pp.157-159, 2001.

G. Weisheit, K. Mertz, K. Schilling, and C. Viebahn, An efficient in situ hybridization protocol for multiple tissue sections and probes on miniaturized slides, Development Genes and Evolution, vol.212, pp.403-406, 2002.

V. J. Hall, J. Christensen, Y. Gao, M. H. Schmidt, and P. Hyttel, Porcine pluripotency cell signaling develops from the inner cell mass to the epiblast during early development, Developmental Dynamics, vol.238, pp.2014-2024, 2009.

U. K. Laemmli, Cleavage of structural proteins during the assembly of the head of bacteriophage T4, Nature, vol.227, pp.680-685, 1970.

J. Wang, D. N. Levasseur, and S. H. Orkin, Requirement of Nanog dimerization for stem cell self-renewal and pluripotency, Proceedings of the National Academy of Sciences of the United States of America, vol.105, pp.6326-6331, 2008.

A. H. Hart, L. Hartley, M. Ibrahim, and L. Robb, Identification, cloning and expression analysis of the pluripotency promoting Nanog genes in mouse and human, Developmental Dynamics, vol.230, pp.187-198, 2004.

S. Kurosaka, S. Eckardt, and K. J. Mclaughlin, Pluripotent lineage definition in bovine embryos by Oct4 transcript localization, Biology of Reproduction, vol.71, pp.1578-1582, 2004.

R. M. Schultz, Regulation of zygotic gene activation in the mouse, Bioessays, vol.15, pp.531-538, 1993.

S. Hatano, M. Tada, H. Kimura, S. Yamaguchi, and T. Kono, Pluripotential competence of cells associated with Nanog activity, Mechanisms of Development, vol.122, pp.67-79, 2005.

D. Pant and C. L. Keefer, Expression of Pluripotency-Related Genes during Bovine Inner Cell Mass Explant Culture, Cloning and Stem Cells, vol.11, pp.355-365, 2009.

S. Y. He, D. Pant, A. Schiffmacher, S. Bischoff, and D. Melican, Developmental expression of pluripotency determining factors in caprine embryos: Novel pattern of NANOG protein localization in the nucleolus, Molecular Reproduction and Development, vol.73, pp.1512-1522, 2006.

R. Tsai and R. Mckay, A nucleolar mechanism controlling cell proliferation in stem cells and cancer cells, Genes & Development, vol.16, pp.2991-3003, 2002.

J. P. Martinez-barbera, T. A. Rodriguez, and R. Beddlington, The homeobox gene Hesx1 is required in the anterior neural ectoderm for normal forebrain formation, Developmental Biology, vol.223, pp.422-430, 2000.

K. Takeda, K. Noguchi, W. Shi, T. Tanaka, and M. Matsumoto, Targeted disruption of the mouse Stat3 gene leads to early embryonic lethality, Proceedings of the National Academy of Sciences of the United States of America, vol.94, pp.3801-3804, 1997.

S. L. Pfaff, M. Mendelsohn, C. L. Stewart, T. Edlund, and T. M. Jessell, Requirement for LIM homeobox gene Isl1 in motor neuron generation reveals a motor neuron-dependent step in interneuron differentiation, Cell, vol.84, pp.309-320, 1996.

M. M. Shen, Nodal signaling: developmental roles and regulation, Development, vol.134, pp.1023-1034, 2007.

J. A. Dahl, A. H. Reiner, A. Klungland, T. Wakayama, and P. Collas, Histone H3 Lysine 27 Methylation Asymmetry on Developmentally-Regulated Promoters Distinguish the First Two Lineages in Mouse Preimplantation Embryos, Plos One, vol.5, 2010.

S. Efroni, R. Duttagupta, J. Cheng, H. Dehghani, and D. J. Hoeppner, Global transcription in pluripotent embryonic stem cells, Cell Stem Cell, vol.2, pp.437-447, 2008.

D. H. Betts and W. A. King, Genetic regulation of embryo death and senescence, Theriogenology, vol.55, pp.171-191, 2001.

H. Pan and R. Schultz, Sox2 Over-Expression Inhibits Reprogramming of Gene Expression in 2-Cell Mouse Embryos, Biology of Reproduction, vol.182, 2010.

K. M. Loh and B. Lim, A Precarious Balance: Pluripotency Factors as Lineage Specifiers, Cell Stem Cell, vol.8, pp.363-369, 2011.