J. L. De-bournon, Renfermant l introduction à la minéralogie en général, la théorie de la cristallisation, l étude de la chaux carbonatée proprement dite, et de l arragonite, avec application du calcul cristallographique à la détermination des formes cristallines de ces deux substances

W. Phillips, , p.432

O. B. Boggild, The shell structure of the Mollusks, D. Kgl. Danske Vidensk. Selsk. Skr. Nat. Mat. Afd, vol.9, pp.230-326, 1930.

J. D. Taylor, W. J. Kennedy, and A. Hall, The shell structure and mineralogy of the Bivalvia. Introduction. Nuculacae-Trigonacae, Bull. Br. Mus. Nat. Hist, vol.3, pp.1-125, 1969.

J. Taylor, W. J. Kennedy, and A. Hall, The shell structure and mineralogy of the Bivalvia. II. Lucinacea-Clavagellacea, conclusions, Bull. Br. Mus. Nat. Hist. Zool, vol.22, pp.255-294, 1973.

J. S. Bowerbank, On the structure of the shells of molluscous and conchiferous animals, Trans. Microsc. Soc. Lond, vol.1844, pp.123-153

W. B. Carpenter, On the microscopic structure of shells, Rep. Br. Assoc. Adv. Sci, vol.1844, pp.1-24

R. A. Réaumur, Sur le coquillage appelé Pinne marine, ou nacre de perle; à l occasion duquel on explique la formation des perles, Mém. Acad. R, vol.1717, pp.177-194

Y. Dauphin, Soluble organic matrices of the calcitic prismatic shell layers of two pteriomorphid Bivalves: Pinna nobilis and Pinctada margaritifera, J. Biol. Chem, vol.278, pp.15168-15177, 2003.

M. Suzuki, E. Murayama, H. Inoue, N. Ozaki, H. Tohse et al., Characterization of prismalin-14, a novel matrix protein from the prismatic layer of the Japanese pearl oyster

, Biochem. J, vol.382, pp.205-213, 2004.

J. P. Cuif, D. Flamand, B. Frérotte, A. Chabin, and A. Raguideau, Fractionnement de la matrice protéique intraprismatique chez Pinna nobilis L. et composition en acides aminés des différentes phases, C. R. Acad. Sci, vol.304, pp.475-478, 1987.

Y. Dauphin, Comparison of the soluble matrices of the calcitic prismatic layer of Pinna nobilis (Mollusca, Bivalvia, Pteriomorpha), Comp. Biochem. Physiol, vol.3, pp.577-590, 2002.

B. A. Gotliv, N. Kessler, J. L. Sumerel, D. E. Morse, N. Tuross et al., Asprich: A novel aspartic acid-rich protein family from the prismatic shell matrix of the bivalve Atrina rigida, Chembiochem, vol.6, pp.304-314, 2005.

F. Marin, R. Amons, G. Guichard, M. Stigter, A. Hecker et al., Caspartin and calprismin, two proteins of the shell calcitic prisms of the Mediterranean fan mussel Pinna nobilis, J. Biol. Chem, vol.280, pp.33895-33908, 2005.
URL : https://hal.archives-ouvertes.fr/inserm-00166083

L. Addadi, Y. Politi, F. Nudelman, and S. Weiner, Biomineralization design strategies and mechanisms of mineral formation: operating at the edge of instability, In Engineering of Crystalline Materials Properties

J. J. Novoa, D. Braga, and L. Addadi, The Netherland, pp.1-15, 2008.

F. Nudelman, H. H. Chen, H. A. Goldberg, S. Weiner, and L. Addadi, Lessons from biomineralization: Comparing the growth strategies of mollusc shell prismatic and nacreous layers in Atrina rigida, Faraday Discuss, vol.137, 2007.

G. Haugstad, Atomic Force Microscopy: Understanding Basic Modes and Advanced Applications

V. Mittal and N. B. Matsko, Analytical Imaging Techniques for Soft Matter Characterization
DOI : 10.1007/978-3-642-30400-2

A. Brunelle, D. Touboul, and O. Laprévote, Biological tissue imaging with time-of-flight secondary ion mass spectrometry and cluster ion sources, J. Mass Spectrom, vol.40, pp.985-999, 2005.
DOI : 10.1002/jms.902
URL : https://onlinelibrary.wiley.com/doi/pdf/10.1002/jms.902

Q. P. Vanbellingen, N. Elie, M. J. Eller, S. Della-negra, D. Touboul et al., Time-of-flight secondary ion mass spectrometry imaging of biological samples with delayed extraction for high mass and high spatial resolutions, Rapid Commun. Mass Spectrom, vol.29, pp.1187-1195, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01159034

A. Somogyi, K. Medjoubi, G. Baranton, V. Le-roux, M. Ribbens et al., Optical design and multi-length-scale scanning spectro-microscopy possibilities at the Nanoscopium beamline of Synchrotron Soleil, J. Synchrotron Rad, vol.22, pp.1118-1129, 2015.

R. W. Zumwalt, J. S. Absheer, F. E. Kaiser, and C. W. Gehrke, Acid hydrolysis of proteins for chromatographic analysis of amino acids, J. Assoc. Off. Anal. Chem, vol.70, pp.147-151, 1987.

A. Baronnet, J. P. Cuif, Y. Dauphin, B. Farre, and J. Nouet, Crystallization of biogenic Ca-carbonate within organo-mineral micro-domains. Structure of the calcite prisms of the pelecypod Pinctada margaritifera (Mollusca) at the submicron to nanometer ranges, Mineral. Mag, vol.72, pp.617-626, 2008.
DOI : 10.1180/minmag.2008.072.2.617
URL : https://hal.archives-ouvertes.fr/hal-00386949

A. Sillero and J. M. Ribeiro, Isoelectric points of proteins: Theoretical determination, Anal. Biochem, vol.179, pp.319-325, 1989.
DOI : 10.1016/0003-2697(89)90136-x

A. Ikai, Thermostability and aliphatic index of globular proteins, J. Biochem, vol.88, pp.1895-1898, 1980.

B. Farre and Y. Dauphin, Lipids from the nacreous and prismatic layers of two Pteriomorpha Mollusc shells, Comp. Biochem. Physiol, vol.152, pp.103-109, 2009.
URL : https://hal.archives-ouvertes.fr/insu-00378694

S. Albeck, S. Weiner, and L. Addadi, Polysaccharides of intracrystalline glycoproteins modulate calcite crystal growth in vitro, Chem. Eur. J, vol.2, pp.278-284, 1996.

M. A. Hayat, Stains and Cytochemical Methods, 1993.

J. P. Cuif, Y. Dauphin, G. Nehrke, J. Nouet, and A. Perez-huerta, Layered growth and crystallization in calcareous biominerals: Impact of structural and chemical evidence on two major concepts in invertebrate biomineralization studies, vol.2, pp.11-39, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00696220

M. A. Crenshaw and H. Ristedt, The histochemical localization of reactive groups in septal nacre from Nautilus pompilius L, The Mechanisms of Mineralization in the Invertebrates and Plants, vol.5, pp.355-367, 1976.

F. Nudelman, B. A. Gotliv, L. Addadi, and S. Weiner, Mollusk shell formation: mapping the distribution of organic matrix components underlying a single aragonitic tablet in nacre, J. Struct. Biol, vol.153, pp.176-187, 2006.

H. Mutvei, The nacreous layer in molluscan shells, The Mechanisms of Biomineralization in Animals and Plants
DOI : 10.1007/bf02223291

M. Omori and N. Watabe, , pp.49-56, 1980.

K. Stemmer and G. Nehrke, The distribution of polyenes in the shell of Arctica islandica from North Atlantic localities: A confocal Raman microscopy study, J. Moll. Stud, vol.80, pp.365-370, 2014.

L. Beierlein, G. Nehrke, and T. Brey, Confocal Raman microscopy in sclerochronology: A powerful tool to visualize environmental information in recent and fossil biogenic archives, Geochem. Geophysics Geosyst, vol.16, pp.325-335, 2015.

S. Y. Venyaminov and N. N. Kalnin, Quantitative IR spectrophotometry of peptide compounds in water (H 2 O) solutions. I. Spectral parameters of amino acid residue absorption bands, Biopolymers, vol.30, pp.1243-1257, 1990.

A. Barth, The infrared absorption of amino acid side chains, Progress Biophys. Mol. Biol, vol.74, pp.141-173, 2000.
DOI : 10.1016/s0079-6107(00)00021-3

J. P. Cuif, A. Denis, D. Flamand, and B. Frérotte, Etude ultrastructurale de la transition prismes/nacre dans le test de Pinna nobilis L. (Mollusque, Lamellibranche), Sci. Rep. Port-Cros Natl. Park, vol.11, pp.95-107, 1985.

A. J. Martin and R. L. Synge, Analytical chemistry of the proteins, Advances in Protein Chemistry

M. L. Anson, J. T. Edsall, and . Eds, , vol.2, pp.1-83, 1945.

H. Nakahara, An electron microscope study of the growing surface of nacre in two Gastropod species, Turbo cornutus and Tegula pfeifferi, vol.38, pp.205-211, 1979.

H. Nakahara, The formation and fine structure of the organic phase of the nacreous layer in mollusc shell, Study of Molluscan Paleobiology, pp.21-27, 1981.

M. A. Crenshaw and J. D. Heely, Sudanophilia at sites of mineralization in molluscs, J. Dent. Res, p.65, 1967.

M. Rousseau, L. Bédouet, E. Lati, P. Gasser, K. Le-ny et al., Restoration of stratum corneum with nacre lipids, Comp. Biochem. Physiol. B, vol.145, pp.1-9, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00131379

P. J. Buijnsters, J. J. Donners, S. J. Hill, B. R. Heywood, R. J. Nolte et al., Oriented crystallization of calcium carbonate under self-organized monolayers of amide-containing phospholipids, Langmuir, vol.17, pp.3623-3628, 2001.

K. Sato, Y. Kumagai, K. Watari, and J. Tanaka, Hierarchical texture of calcium carbonate crystals grown on a polymerized Langmuir-Blodgett film, Langmuir, vol.20, pp.2979-2981, 2004.