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References
Ascenzi A, Bonucci E (1968) The compressive properties of single osteons. Anat Rec 161:377–392
Bigi A, Koch MH, Panzavolta S, Roveri N, Rubini K (2000) Structural aspects of the calcification process of lower vertebrate collagen. Connect Tissue Res 41:37–43
Bigi A, Burghammer M, Falconi R, Koch MH, Panzavolta S, Riekel C (2001) Twisted plywood pattern of collagen fibrils in teleost scales: an X-ray diffraction investigation. J Struct Biol 136:137–143
Brown GA, Wellings SR (1969) Collagen formation and calcification in teleost scales. Z Zellforsch 93:571–582
de Ricqlès A, Meunier FJ, Castanet J, Francillon-Vieillot H (1991) Comparative microstructure of bone. In: Hall BK (ed) Bone, vol 3. Bone matrix and bone specific products. CRC Press, Boca Raton, pp 1–78
Fincham AG, Moradian-Oldak J, Simmer JP (1999) The structural biology of the developing dental enamel matrix. J Struct Biol 126:270–299
Garant PR (1970) An electron microscopic study of the crystal-matrix relationship in the teeth of the dogfish Squalus acanthias L. J Ultrastruct Res 30:441–449
Graham EE (1984) Protein biosynthesis during spiny dogfish (Squalus acanthias) enameloid formation. Arch Oral Biol 29:821–825
Graham EE (1985) Isolation of enamelinlike proteins from blue shark (Prionace glauca) enameloid. J Exp Zool 234:185–191
Herold RC, Graver HT, Christner P (1980) Immunohistochemical localization of amelogenins in enameloid of lower vertebrate teeth. Science 207:1357–1358
Herold R, Rosenbloom J, Granovsky M (1989) Phylogenetic distribution of enamel proteins: immunohistochemical localization with monoclonal antibodies indicates the evolutionary appearance of enamelins prior to amelogenins. Calcif Tissue Int 45:88–94
Inage T (1975) Electron microscopic study of early formation of the tooth enameloid of a fish (Hoplognathus fasciatus). I. Odontoblasts and matrix fibers. Arch Histol Jpn 38:209–227
Ishiyama M, Mikami M, Shimokawa H, Oida S (1998) Amelogenin protein in tooth germs of the snake Elaphe quadrivirgata, immunohistochemistry, cloning and cDNA sequence. Arch Histol Cytol 61:467–474
Ishiyama M, Inage T, Shimokawa H (2001) Abortive secretion of an enamel matrix in the inner enamel epithelial cells during an enameloid formation in the gar-pike, Lepisosteus oculatus (Holostei, Actinopterygii). Arch Histol Cytol 64:99–107
Kawasaki H, Kawaguchi T, Yano T, Fujimura S, Yago M (1980) Chemical nature of proteins in the placoid scale of the blue shark, Prionace glauca L. Arch Oral Biol 25:313–320
Kawasaki K, Suzuki T, Weiss KM (2004) Genetic basis for the evolution of vertebrate mineralized tissue. Proc Natl Acad Sci U S A 101:11356–11361
Kemp NE, Park JH (1974) Ultrastructure of the enamel layer in developing teeth of the shark Carcharhinus menisorrah. Arch Oral Biol 19:633–644
Kerebel L-M, Le Cabellec MT (1980) Enameloid in the teleost fish Lophius. An ultrastructural study. Cell Tissue Res 206:211–223
Kimura S (1985) The interstitial collagens of fish. In: Bairati A, Garrone R (eds) Biology of invertebrate and lower vertebrate collagens. Plenum Press, New York, pp 397–408
Kimura S, Kamimura T, Takema Y, Kubota M (1981) Lower vertebrate collagen. Evidence for type I-like collagen in the skin of lamprey and shark. Biochim Biophys Acta 669:251–257
Kobayashi S, Yamada J, Maekawa K, Ouchi K (1972) Calcification and nucleation in fish-scales. Biomineralization 6:84–90
Kogaya Y (1989) Histochemical properties of sulfated glycoconjugates in developing enameloid matrix of the fish Polypterus senegalus. Histochemistry 91:185–190
Kogaya Y (1999) Immunohistochemical localisation of amelogenin-like proteins and type I collagen and histochemical demonstration of sulphated glycoconjugates in developing enameloid and enamel matrices of the larval urodele (Triturus pyrrhogaster) teeth. J Anat 195:455–464
Krejsa RJ, Samuel N, Bessem C, Slavkin HC (1985) Immunogenetic and phylogenetic comparisons between teleost scale and dental enameloid with mammalian enamel antigens. In: Belcourt AB, Ruch J-V (eds) Morphogenèse et différenciation dentaires. Coll. INSERM 125. INSERM, Paris, pp 369–376
Levrat-Calviac V, Zylberberg L (1986) The structure of the osteoderms in the gekko: Tarentola mauritanica. Am J Anat 176:437–446
Meunier FJ (1984) Spatial organization and mineralization of the basal plate of elasmoid scales in Osteichthyans. Am Zoolog 24:953–964
Meunier FJ, François Y (1980) L’organisation spatiale des fibres collagènes et la mineralization des écailles des Dipneustes actuels. Bull Soc Zool Fr 105:215–226
Meunier FJ, Géraudie J (1980) Les structures en contre-plaqué du derme et des écailles des vertébrés inférieurs. Ann Biol 19:1–18
Olson OP, Watabe N (1980) Studies on formation and resorption of fish scales. IV: Ultrastructure of developing scales in newly hatched fry of the sheepshead minnow, Cyprinodon variegatus (Atheriniformes: Cyprinodontidae). Cell Tissue Res 211:303–316
Onozato H, Watabe N (1979) Studies on fish scale formation and resorption III. Fine structure and calcification of the fibrillary plates of the scales in Carassius auratus (Cypriniformes: cyprinidae). Cell Tissue Res 201:409–422
Prostak K, Skobe Z (1986) Ultrastructure of the dental epithelium during enameloid mineralization in a teleost fish, Cichlasoma cyanoguttatum. Arch Oral Biol 31:73–85
Prostak KS, Seifert P, Skobe Z (1993) Enameloid formation in two tetraodontiform fish species with high and low fluoride contents in enameloid. Arch Oral Biol 38:1031–1044
Sasagawa I (1995) Fine structure of tooth germs during the formation of enameloid matrix in Tilapa nilotica, a teleost fish. Arch Oral Biol 40:801–814
Sasagawa I (1998) Mechanisms of mineralization in the enameloid of elasmobranchs and teleosts. Connect Tissue Res 39:207–214
Sasagawa I (1999) Fine structure of dental epithelial cells and the enameloid during the enameloid formation stages in an elasmobranch, Heterodontus japonicus. Anat Embryol (Berl) 200:477–486
Sasagawa I (2002) Mineralization patterns in elasmobranch fish. Microsc Res Tech 59:396–407
Sasagawa I, Ferguson MW (1990) Fine structure of the organic matrix remaining in the mature cap enameloid in Halichoeres poecilopterus, teleost. Arch Oral Biol 35:765–770
Sasagawa I, Ishiyama M (1988) The structure and development of the collar enameloid in two teleost fishes, Halichoeres poecilopterus and Pagrus major. Anat Embryol (Berl) 178:499–511
Schönbörner AA, Boivin G, Baud CA (1979) The mineralization processes in teleost fish scales. Cell Tissue Res 202:203–21
Sire J-Y (1994) Light and TEM study of nonregenerated and experimentally regenerated scales of Lepisosteus oculatus (Holostei) with particular attention to ganoine formation. Anat Rec 240:189–207
Sire J-Y (1995) Ganoine formation in the scales of primitive actinopterygian fishes, lepisosteids and polypterides. Connect Tissue Res 33:213–222
Sire J-Y, Géraudie J (1984) Fine structure of regenerating scales and their associated cells in the cichlid Hemichromis bimaculatus (Gill). Cell Tissue Res 237:537–547
Sire J-Y, Géraudie J, Meunier FJ, Zylberberg L (1987) On the origin of ganoine: histological and ultrastructural data on the experimental regeneration of the scales of Calamoichthys calabaricus (Osteichthyes, Brachyopterygii, Polypteridae). Am J Anat 180:391–402
Slavkin HC, Diekwisch T (1996) Evolution in tooth developmental biology: of morphology and molecules. Anat Rec 245:131–150
Slavkin HC, Samuel N, Bringas P Jr, Nanci A, Santos V (1983) Selachian tooth development: II. Immunolocalization of amelogenin polypeptides in epithelium during secretory amelogenesis in Squalus acanthias. J Craniofac Genet Dev Biol 3:43–52
Toyosawa S, O’hUigin C, Figueroa F, Tichy H, Klein J (1998) Identification and characterization of amelogenin genes in monotremes, reptiles, and amphibians. Proc Natl Acad Sci USA95:13056–13061
Wang X, Ito Y, Luan X, Yamane A, Diekwisch TG (2005) Amelogenin sequence and enamel biomineralization in Rana pipiens. J Exp Zool B Mol Dev Evol 304:177–186
Yamada M, Ozawa H (1978) Ultrastructural and cytochemical studies on the matrix vesicle calcification in the teeth of the killifish, Oryzias latipes. Arch Histol Jpn 41:309–323
Yamada J, Watabe N (1979) Studies on fish scale formation and resorption I. Fine structure and calcification of the scales in Fundulus heteroclitus (Atheriniformes: cyprinodontidae). J Morphol 159:49–66
Zylberberg L (1985) Collagen and mineralization in the elasmoid scales. In: Bairati A, Garrone R (eds) Biology of invertebrate and lower vertebrate collagens. Plenum Press, New York, pp 457–463
Zylberberg L, Nicolas G (1982) Ultrastructure of scales in a teleost (Carassius auratus L.) after use of rapid freez-fixation and freeze-substitution. Cell Tissue Res 223:349–367
Zylberberg L, Géraudie J, Meunier F, Sire J-Y (1992) Biomineralization in the integumental skeleton of the living lower vertebrates. In: Hall BK (ed) Bone, vol 4: Bone metabolism and mineralization. CRC Press, Boca Raton, pp 171–224
Zylberberg L, Sire J-Y, Nanci A (1997) Immunodetection of amelogenin-like proteins in the ganoine of experimentally regenerating scales of Calamoichthys calabaricus, a primitive actinopterygian. Anat Rec 249:86–95
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(2007). Calcifying Matrices: Lower Vertebrates. In: Biological Calcification. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-36013-1_11
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