T. Goto, J. Adjaye, C. H. Rodeck, and M. Monk, Identification of genes expressed in human primordial germ cells at the time of entry of the female germ line into meiosis, Mol. Hum. Reprod, vol.5, pp.851-860, 1999.

A. Forabosco and C. Sforza, Establishment of ovarian reserve: a quantitative morphometric study of the developing human ovary, Fertil. Steril, vol.88, pp.675-683, 2007.

K. Guo, C. H. Li, X. Y. Wang, D. J. He, and P. Zheng, Germ stem cells are active in postnatal mouse ovary under physiological conditions, Mol. Hum. Reprod, 2016.
DOI : 10.1093/molehr/gaw015

URL : http://europepmc.org/articles/pmc4847614?pdf=render

R. Vassena, C. Eguizabal, B. Heindryckx, K. Sermon, C. Simon et al., Stem cells in reproductive medicine: ready for the patient?, Hum. Reprod, vol.30, pp.2014-2021, 2015.

L. Lei and A. C. Spradling, Female mice lack adult germ-line stem cells but sustain oogenesis using stable primordial follicles, Proc. Natl. Acad. Sci. U. S. A, vol.110, pp.8585-8590, 2013.
DOI : 10.1073/pnas.1306189110

URL : https://www.pnas.org/content/pnas/110/21/8585.full.pdf

X. Li, S. Naar-king, D. Barnett, B. Stanton, X. Fang et al., A developmental psychopathology framework of the psychosocial needs of children orphaned by HIV, J. Assoc. Nurses AIDS Care, vol.19, pp.147-157, 2008.

B. Payer, M. Saitou, S. C. Barton, R. Thresher, J. P. Dixon et al., Stella is a maternal effect gene required for normal early development in mice, Curr. Biol, vol.13, pp.2110-2117, 2003.

S. Katari, N. Turan, M. Bibikova, O. Erinle, R. Chalian et al., DNA methylation and gene expression differences in children conceived in vitro or in vivo, Hum. Mol. Genet, vol.18, pp.3769-3778, 2009.

P. Zhang, M. Zucchelli, S. Bruce, F. Hambiliki, A. Stavreus-evers et al., Transcriptome profiling of human pre-implantation development, PLoS One, vol.4, p.7844, 2009.

S. Assou, I. Boumela, D. Haouzi, T. Anahory, H. Dechaud et al., Dynamic changes in gene expression during human early embryo development: from fundamental aspects to clinical applications, Hum. Reprod. Update, vol.17, pp.272-290, 2011.
URL : https://hal.archives-ouvertes.fr/inserm-00512388

P. Braude, V. Bolton, and S. Moore, Human gene expression first occurs between the four-and eight-cell stages of preimplantation development, Nature, vol.332, pp.459-461, 1988.

R. Vassena, S. Boue, E. Gonzalez-roca, B. Aran, H. Auer et al., Waves of early transcriptional activation and pluripotency program initiation during human preimplantation development, Development, vol.138, pp.3699-3709, 2011.

F. Zeng and R. M. Schultz, RNA transcript profiling during zygotic gene activation in the preimplantation mouse embryo, Dev. Biol, vol.283, pp.40-57, 2005.

K. K. Niakan and K. Eggan, Analysis of human embryos from zygote to blastocyst reveals distinct gene expression patterns relative to the mouse, Dev. Biol, vol.375, pp.54-64, 2013.

G. Guo, M. Huss, G. Q. Tong, C. Wang, L. L. Sun et al., Resolution of cell fate decisions revealed by single-cell gene expression analysis from zygote to blastocyst, Dev. Cell, vol.18, pp.675-685, 2010.

B. Sozen, A. Can, and N. Demir, Cell fate regulation during preimplantation development: a view of adhesion-linked molecular interactions, Dev. Biol, vol.395, pp.73-83, 2014.

M. Ozawa, M. Sakatani, J. Yao, S. Shanker, F. Yu et al., Global gene expression of the inner cell mass and trophectoderm of the bovine blastocyst, BMC Dev. Biol, vol.12, p.33, 2012.

L. Yan, M. Yang, H. Guo, L. Yang, J. Wu et al., Single-cell RNA-Seq profiling of human preimplantation embryos and embryonic stem cells, Nat. Struct. Mol. Biol, vol.20, pp.1131-1139, 2013.

P. Blakeley, N. M. Fogarty, I. Valle, S. E. Wamaitha, T. X. Hu et al., Defining the three cell lineages of the human blastocyst by single-cell RNA-seq, Development, vol.142, p.3613, 2015.

Z. Xue, K. Huang, C. Cai, L. Cai, C. Y. Jiang et al., Genetic programs in human and mouse early embryos revealed by single-cell RNA sequencing, Nature, vol.500, pp.593-597, 2013.
DOI : 10.1038/nature12364

URL : https://cloudfront.escholarship.org/dist/prd/content/qt4n1561d1/qt4n1561d1.pdf?t=nr8ukp

G. Coticchio, M. Canto, M. C. Guglielmo, D. F. Albertini, M. Renzini et al., Double-strand DNA breaks and repair response in human immature oocytes and their relevance to meiotic resumption, J. Assist. Reprod. Genet, vol.32, pp.1509-1516, 2015.

A. M. Luciano, S. Modina, R. Vassena, E. Milanesi, A. Lauria et al., Role of intracellular cyclic adenosine 3?,5?-monophosphate concentration and oocyte-cumulus cells communications on the acquisition of the developmental competence during in vitro maturation of bovine oocyte, Biol. Reprod, vol.70, pp.465-472, 2004.

T. Trapphoff, M. Heiligentag, D. Dankert, H. Demond, D. Deutsch et al., Postovulatory aging affects dynamics of mRNA, expression and localization of maternal effect proteins, spindle integrity and pericentromeric proteins in mouse oocytes, Hum. Reprod, vol.31, pp.133-149, 2016.

V. Y. Rawe, S. B. Olmedo, F. N. Nodar, G. D. Doncel, A. A. Acosta et al., Cytoskeletal organization defects and abortive activation in human oocytes after IVF and ICSI failure, Mol. Hum. Reprod, vol.6, pp.510-516, 2000.

B. V. Paynton, R. Rempel, and R. Bachvarova, Changes in state of adenylation and time course of degradation of maternal mRNAs during oocyte maturation and early embryonic development in the mouse, Dev. Biol, vol.129, pp.304-314, 1988.

S. Potireddy, R. Vassena, B. G. Patel, and K. E. Latham, Analysis of polysomal mRNA populations of mouse oocytes and zygotes: dynamic changes in maternal mRNA utilization and function, Dev. Biol, vol.298, pp.155-166, 2006.

A. Viale, J. Li, J. Tiesman, S. Hester, A. Massimi et al., Big results from small samples: evaluation of amplification protocols for gene expression profiling, J. Biomol. Tech, vol.18, pp.150-161, 2007.

T. J. Holman, M. H. Wilson, K. Kenobi, I. L. Dryden, T. C. Hodgman et al., Statistical evaluation of transcriptomic data generated using the Affymetrix one-cycle, two-cycle and IVT-Express RNA labelling protocols with the Arabidopsis ATH1 microarray, Plant Methods, vol.6, p.9, 2010.

D. G. Rothwell, Y. Li, M. Ayub, C. Tate, G. Newton et al., Evaluation and validation of a robust single cell RNA-amplification protocol through transcriptional profiling of enriched lung cancer initiating cells, BMC Genomics, vol.15, p.1129, 2014.

A. Shaik, S. Wee, R. H. Li, Z. Li, T. J. Carney et al., Functional mapping of the zebrafish early embryo proteome and transcriptome, J. Proteome Res, vol.13, pp.5536-5550, 2014.

G. Giritharan, L. Delle-piane, A. Donjacour, F. J. Esteban, J. A. Horcajadas et al., In vitro culture of mouse embryos reduces differential gene expression between inner cell mass and trophectoderm, Reprod. Sci, vol.19, pp.243-252, 2012.

S. H. Kleijkers, L. M. Eijssen, E. Coonen, J. G. Derhaag, E. Mantikou et al., Differences in gene expression profiles between human preimplantation embryos cultured in two different IVF culture media, Hum. Reprod, vol.30, pp.2303-2311, 2015.

R. J. Chason, J. Csokmay, J. H. Segars, A. H. Decherney, and D. R. Armant, Environmental and epigenetic effects upon preimplantation embryo metabolism and development, Trends Endocrinol. Metab, vol.22, pp.412-420, 2011.

D. A. Orlando, M. W. Chen, V. E. Brown, S. Solanki, Y. J. Choi et al., Quantitative ChIP-Seq normalization reveals global modulation of the epigenome, Cell Rep, vol.9, pp.1163-1170, 2014.

K. Van-veldhoven, S. Polidoro, L. Baglietto, G. Severi, C. Sacerdote et al., Epigenome-wide association study reveals decreased average methylation levels years before breast cancer diagnosis, Clin. Epigenetics, vol.7, p.67, 2015.

J. Huntriss, K. Woodfine, J. E. Huddleston, A. Murrell, and H. M. Picton, Analysis of DNA methylation patterns in single blastocysts by Pyrosequencing®, Methods Mol. Biol, vol.1315, pp.259-270, 2015.

S. R. Huffman, Y. Pak, and R. M. Rivera, Superovulation induces alterations in the epigenome of zygotes, and results in differences in gene expression at the blastocyst stage in mice, Mol. Reprod. Dev, vol.82, pp.207-217, 2015.

D. M. Messerschmidt, B. B. Knowles, and D. Solter, DNA methylation dynamics during epigenetic reprogramming in the germline and preimplantation embryos, Genes Dev, vol.28, pp.812-828, 2014.

S. J. Park, M. Komata, F. Inoue, K. Yamada, K. Nakai et al., Inferring the choreography of parental genomes during fertilization from ultralarge-scale whole-transcriptome analysis, Genes Dev, vol.27, pp.2736-2748, 2013.

T. Kok-sin, N. M. Mokhtar, N. Z. Hassan, I. Sagap, I. Rose et al., Identification of diagnostic markers in colorectal cancer via integrative epigenomics and genomics data, Oncol. Rep, vol.34, pp.22-32, 2015.

P. J. Bridges, M. Jeoung, H. Kim, J. H. Kim, D. R. Lee et al., Methodology matters: IVF versus ICSI and embryonic gene expression, Reprod. BioMed. Online, vol.23, pp.234-244, 2011.
DOI : 10.1016/j.rbmo.2011.04.007

URL : http://www.rbmojournal.com/article/S1472648311002331/pdf

Y. Tay, J. Zhang, A. M. Thomson, B. Lim, and I. Rigoutsos, MicroRNAs to Nanog, Oct4 and Sox2 coding regions modulate embryonic stem cell differentiation, Nature, vol.455, pp.1124-1128, 2008.
DOI : 10.1038/nature07299

X. Wang, S. Arai, X. Song, D. Reichart, K. Du et al., Induced ncRNAs allosterically modify RNA-binding proteins in cis to inhibit transcription, Nature, vol.454, pp.126-130, 2008.

X. Zhao, H. Hao, W. Du, and H. Zhu, Effect of vitrification on the microRNA transcriptome in mouse blastocysts, PLoS One, vol.10, p.123451, 2015.

N. Ghanem, D. Salilew-wondim, A. Gad, D. Tesfaye, C. Phatsara et al., Bovine blastocysts with developmental competence to term share similar expression of developmentally important genes although derived from different culture environments, Reproduction, vol.142, pp.551-564, 2011.

J. C. Parks, B. R. Mccallie, A. M. Janesch, W. B. Schoolcraft, and M. G. Katz-jaffe, Blastocyst gene expression correlates with implantation potential, Fertil. Steril, vol.95, pp.1367-1372, 2011.
DOI : 10.1016/j.fertnstert.2010.08.009

K. Kirkegaard, P. Villesen, J. M. Jensen, J. J. Hindkjaer, S. Kolvraa et al., Distinct differences in global gene expression profiles in non-implanted blastocysts and blastocysts resulting in live birth, Gene, vol.571, pp.212-220, 2015.

G. M. Jones, D. S. Cram, B. Song, G. Kokkali, K. Pantos et al., Novel strategy with potential to identify developmentally competent IVF blastocysts, Hum. Reprod, vol.23, pp.1748-1759, 2008.
DOI : 10.1093/humrep/den123

URL : https://academic.oup.com/humrep/article-pdf/23/8/1748/9544250/den123.pdf