E. T. Moran, Nutrition of the developing embryo and hatchling, Poult. Sci, vol.86, pp.1043-1049, 2007.

R. Bellairs, O. , and M. , The Atlas of Chick Development, 2014.

G. Sheng and A. C. Foley, Diversification and conservation of the extraembryonic tissues in mediating nutrient uptake during amniote development, Ann. N. Y. Acad. Sci, vol.1271, pp.97-103, 2012.

L. Yadgary, E. A. Wong, and Z. Uni, Temporal transcriptome analysis of the chicken embryo yolk sac, BMC Genomics, vol.15, p.690, 2014.

M. G. Gabrielli, A. , and D. , The chick chorioallantoic membrane: a model of molecular, structural, and functional adaptation to transepithelial ion transport and barrier function during embryonic development, J. Biomed. Biotechnol, p.940741, 2010.

M. A. Underwood, W. M. Gilbert, and M. P. Sherman, Amniotic fluid: not just fetal urine anymore, J. Perinatol, vol.25, pp.341-348, 2005.

N. Bakalar, Sensory science: partners in flavour, Nature, vol.486, pp.4-5, 2012.

M. Orczyk-pawilowicz, E. Jawien, S. Deja, L. Hirnle, A. Zabek et al., , 2016.

, Metabolomics of Human Amniotic Fluid and Maternal Plasma during Normal Pregnancy, PloS one, vol.11, p.152740

J. E. Michaels, S. Dasari, L. Pereira, A. P. Reddy, J. A. Lapidus et al.,

A. Thomas, M. Rodland, C. T. Roberts, M. G. Gravett, and S. R. Nagalla, Comprehensive Comment citer ce document, 2007.

D. Silva, M. Dombre, C. Brionne, A. Monget, P. Chessé et al., The unique features of proteins depicting the chicken amniotic fluid, Molecular and Cellular Proteomics, vol.18, issue.3, pp.174-190, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02626106

, Proteomic specificities of the chicken amniotic fluid 34

, proteomic analysis of the human amniotic fluid proteome: Gestational age-dependent changes, J. Proteome Res, vol.6, pp.1277-1285

R. Romero, J. P. Kusanovic, F. Gotsch, O. Erez, E. Vaisbuch et al.,

L. Yeo, S. S. Hassan, and W. T. Rogers, Isobaric labeling and tandem mass spectrometry: A novel approach for profiling and quantifying proteins differentially expressed in amniotic fluid in preterm labor with and without intra-amniotic infection/inflammation, J. Matern. Fetal Neonatal. Med, vol.23, pp.261-280, 2010.

C. K. Cho, S. J. Shan, E. J. Winsor, and E. P. Diamandis, Proteomics analysis of human amniotic fluid, Mol. Cell. Proteomics, vol.6, pp.1406-1415, 2007.

N. Yoshizaki, Y. Ito, H. Hori, H. Saito, and A. Iwasawa, Absorption, transportation and digestion of egg white in quail embryos, Dev. Growth Differ, vol.44, pp.11-22, 2002.

S. E. Geelhoed and J. L. Conklin, An electrophoretic study of proteins in chick embryonic fluids, J. Exp. Zool, vol.162, pp.257-261, 1966.

K. Baintner, G. Fehér, N. Cirkven-i, M. Narat, P. Dov et al., Distribution of chicken cathepsins B and L, cystatin and ovalbumin in extra-embryonic fluids during embryogenesis, Br. Poult. Sci, vol.36, pp.623-630, 1974.

Y. Sugimoto, S. Sanuki, S. Ohsako, Y. Higashimoto, M. Kondo et al., Ovalbumin in developing chicken eggs migrates from egg white to embryonic organs while changing its conformation and thermal stability, J. Biol. Chem, vol.274, pp.11030-11037, 1999.

, Version preprint Comment citer ce document

D. Silva, M. Dombre, C. Brionne, A. Monget, P. Chessé et al., The unique features of proteins depicting the chicken amniotic fluid, Molecular and Cellular Proteomics, vol.18, issue.3, pp.174-190, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02626106

, Proteomic specificities of the chicken amniotic fluid 35

T. Muramatsu, K. Hiramoto, N. Koshi, J. Okumura, S. Miyoshi et al.,

D. Silva, M. Labas, V. Nys, Y. Rehault-godbert, and S. , Investigating proteins and proteases composing amniotic and allantoic fluids during chicken embryonic development, Poult. Sci, vol.96, pp.2931-2941, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01604552

A. L. Romanoff, A. L. Romanoff, and A. J. Romanoff, Biochemistry of the avian embryo: A Quantitative Analysis of Prenatal Development, 1960.

X. Tian, J. Gautron, P. Monget, P. , and G. , What Makes an Egg Unique? Clues from Evolutionary Scenarios of Egg-Specific Genes, Biol. Reprod, vol.83, pp.893-900, 2010.
URL : https://hal.archives-ouvertes.fr/hal-01129421

M. Clinton, L. Haines, B. Belloir, and D. Mcbride, Sexing chick embryos: a rapid and simple protocol, Br. Poult. Sci, vol.42, pp.134-138, 2001.

A. Shevchenko, M. Wilm, O. Vorm, and M. Mann, Mass spectrometric sequencing of proteins silver-stained polyacrylamide gels, Anal. Chem, vol.68, pp.850-858, 1996.

J. A. Vizcaino, E. W. Deutsch, R. Wang, A. Csordas, F. Reisinger et al.,

A. Sun, Z. Farrah, T. Bandeira, N. Binz, P. A. Xenarios et al., ProteomeXchange provides globally coordinated proteomics data submission and dissemination, Nat. Biotechnol, vol.32, pp.223-226, 2014.

D. Silva, M. Dombre, C. Brionne, A. Monget, P. Chessé et al., The unique features of proteins depicting the chicken amniotic fluid, Molecular and Cellular Proteomics, vol.18, issue.3, pp.174-190, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02626106

, Proteomic specificities of the chicken amniotic fluid 36

A. J. Vilella, J. Severin, A. Ureta-vidal, L. Heng, R. Durbin et al., , 2009.

, EnsemblCompara GeneTrees: Complete, duplication-aware phylogenetic trees in vertebrates

, Genome Res, vol.19, pp.327-335

L. Dufourny, A. Levasseur, M. Migaud, I. Callebaut, P. Pontarotti et al.,

P. Monget, GPR50 is the mammalian ortholog of Mel1c: evidence of rapid evolution in mammals, BMC Evol. Biol, vol.8, p.105, 2008.
URL : https://hal.archives-ouvertes.fr/hal-01129620

N. Guyot, V. Labas, G. Harichaux, M. Chesse, J. C. Poirier et al.,

S. Godbert, Proteomic analysis of egg white heparin-binding proteins: towards the identification of natural antibacterial molecules, Sci. Rep, vol.6, p.27974, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01409312

A. K. Bhunia, M. C. Johnson, and B. Ray, Direct Detection of an antimicrobial peptide of Pediococcus-Acidilactici in Sodium Dodecyl Sulfate Polyacrylamide Gel, Electrophoresis J. Ind. Microbiol, vol.2, pp.319-322, 1987.

V. Hamburger and H. L. Hamilton, A series of normal stages in the development of the chick embryo, J. Morphol, vol.88, pp.49-92, 1951.

N. Guyot, S. Rehault-godbert, C. Slugocki, G. Harichaux, V. Labas et al.,

Y. Nys, Characterization of egg white antibacterial properties during the first half of incubation: A comparative study between embryonated and unfertilized eggs, Poult. Sci, vol.95, pp.2956-2970, 2016.
URL : https://hal.archives-ouvertes.fr/hal-02632352

D. Silva, M. Beauclercq, S. Harichaux, G. Labas, V. Guyot et al., The Family Secrets of Avian Egg-Specific Ovalbumin and Its Related Proteins Y and X, Biol. Reprod, vol.93, p.71, 2015.
URL : https://hal.archives-ouvertes.fr/hal-02638208

O. Wellman-labadie, R. Lakshminarayanan, M. T. Hincke, F. Baron, S. Jan et al., Antimicrobial properties of avian eggshell-specific C-type lectin-like proteins, FEBS letters, vol.582, pp.699-704, 2008.

C. Dubiard and F. Nau, Ovotransferrin plays a major role in the strong bactericidal effect of egg white against the Bacillus cereus group, J. Food Prot, vol.77, pp.955-962, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01209646

K. Mann, The chicken egg white proteome, Proteomics, vol.7, pp.3558-3568, 2007.

K. Mann and M. Mann, The chicken egg yolk plasma and granule proteomes, 2008.

, Proteomics, vol.8, pp.178-191

R. D. Palmiter, Regulation of protein synthesis in chick oviduct. I. Independent regulation of ovalbumin, conalbumin, ovomucoid, and lysozyme induction, J. Biol. Chem, vol.247, pp.6450-6461, 1972.

T. Nakano and T. Graf, Goose-type lysozyme gene of the chicken: sequence, genomic organization and expression reveals major differences to chicken-type lysozyme gene, Biochim. Biophys. Acta, vol.1090, pp.273-276, 1991.

B. Slade and J. Milne, Localization and synthesis of alpha-fetoprotein in the chicken, Cell Tissue Res, vol.180, pp.411-419, 1977.

M. Anton, Egg yolk: structures, functionalities and processes, Journal of the science of food and agriculture, vol.93, pp.2871-2880, 2013.

G. K. Malik, S. M. Sinha, P. N. Saksena, A. K. Kapoor, P. Mehra et al., Amniotic fluid proteins in relation to fetal maturity, Indian J. Pediatr, vol.48, pp.149-152, 1981.

, Physiol. A-Mol. Integr. Physiol, vol.157, pp.19-27

K. Maehashi, M. Ueda, M. Matano, J. Takeuchi, M. Uchino et al.,

T. Watanabe, H. A. Elo, and J. Korpela, Biochemical and functional characterization of transiently expressed in neural precursor (TENP) protein in emu egg white, Comp. Biochem. Physiol. B, vol.62, pp.15-20, 1984.

M. Matulova, J. Rajova, L. Vlasatikova, J. Volf, H. Stepanova et al., Characterization of chicken spleen transcriptome after infection with Salmonella enterica serovar Enteritidis, PloS one, vol.7, p.48101, 2012.

D. Nakimbugwe, B. Massehalck, M. Atanassova, A. Zewdie-bosuner, and C. Michiels,

W. , Comparison of bactericidal activity of six lysozymes at atmospheric pressure and under high hydrostatic pressure, Int. J. Food Microbiol, vol.108, pp.355-363, 2006.

N. Sellier, M. L. Vidal, F. Baron, J. Michel, J. Gautron et al.,

M. Gautier and Y. Nys, Estimations of repeatability and heritability of egg albumen antimicrobial activity and of lysozyme and ovotransferrin concentrations, Br. Poult. Sci, vol.48, pp.559-566, 2007.
URL : https://hal.archives-ouvertes.fr/hal-01454001

V. Herve-grepinet, S. Rehault-godbert, V. Labas, T. Magallon, C. Derache et al., Purification and Characterization of Avian Version preprint Comment citer ce document, 2010.

D. Silva, M. Dombre, C. Brionne, A. Monget, P. Chessé et al., The unique features of proteins depicting the chicken amniotic fluid, Molecular and Cellular Proteomics, vol.18, issue.3, pp.174-190, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02626106

, Proteomic specificities of the chicken amniotic fluid 40

, beta-Defensin 11, an Antimicrobial Peptide of the Hen Egg, Antimicrob. Agents Chemother, vol.54, pp.4401-4408

M. Tollin, G. Bergsson, Y. Kai-larsen, J. Lengqvist, J. Sjovall et al.,

G. V. Skuladottir, A. Haraldsson, H. Jornvall, G. H. Gudmundsson, A. et al., , 2005.

, Vernix caseosa as a multi-component defence system based on polypeptides, lipids and their interactions, Cell. Mol. Life Sci, vol.62, pp.2390-2399

H. Yoshio, M. Tollin, G. H. Gudmundsson, H. Lagercrantz, H. Jornvall et al., Antimicrobial polypeptides of human vernix caseosa and amniotic fluid: implications for newborn innate defense, Pediatr. Res, vol.53, pp.211-216, 2003.

M. Cunningham and J. Tang, Purification and properties of cathepsin D from porcine spleen, J. Biol. Chem, vol.251, pp.4528-4536, 1976.

A. C. Castellano, M. Barteri, A. Bianconi, F. Bruni, S. Della-longa et al., Conformational changes involved in the switch from ovalbumin to S-ovalbumin, Z Naturforsch C, vol.51, pp.379-385, 1996.

M. Yamasaki, N. Takahashi, and M. Hirose, Crystal structure of S-ovalbumin as a non-loop-inserted thermostabilized serpin form, J. Biol. Chem, vol.278, pp.35524-35530, 2003.

K. Spencer, F. Muller, and D. A. Aitken, Biochemical markers of trisomy 21 in amniotic fluid, Prenat. Diagn, vol.17, pp.31-37, 1997.

Y. Liu, Y. Liu, C. Du, R. Zhang, Z. Feng et al., Diagnostic value of amniotic fluid inflammatory biomarkers for subclinical chorioamnionitis, Int. J. Gynaecol. Obstet, vol.134, pp.160-164, 2016.

T. Y. Hsu, H. Lin, H. N. Hung, K. D. Yang, C. Y. Ou et al., Two-Dimensional Comment citer ce document, 2016.

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URL : https://hal.archives-ouvertes.fr/hal-02626106

, Comment citer ce document

D. Silva, M. Dombre, C. Brionne, A. Monget, P. Chessé et al., The unique features of proteins depicting the chicken amniotic fluid, Molecular and Cellular Proteomics, vol.18, issue.3, pp.174-190, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02626106

, Proteomic specificities of the chicken amniotic fluid 47

, Comment citer ce document

D. Silva, M. Dombre, C. Brionne, A. Monget, P. Chessé et al., The unique features of proteins depicting the chicken amniotic fluid, Molecular and Cellular Proteomics, vol.18, issue.3, pp.174-190, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02626106

, Comment citer ce document

D. Silva, M. Dombre, C. Brionne, A. Monget, P. Chessé et al., The unique features of proteins depicting the chicken amniotic fluid, Molecular and Cellular Proteomics, vol.18, issue.3, pp.174-190, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02626106

H. Cb and L. M. ,

. Af, Flow-through" fraction Eluted fraction (HBP)

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D. Silva, M. Dombre, C. Brionne, A. Monget, P. Chessé et al., The unique features of proteins depicting the chicken amniotic fluid, Molecular and Cellular Proteomics, vol.18, issue.3, pp.174-190, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02626106