Biomedical Engineering Reference
In-Depth Information
62. Moradian-Oldak, J., Lau, E.C., Diekwisch, T.G.H., Slavkin, H.C., Fincham, A.G.: A review
of the aggregation properties of a recombinant amelogenin. Connect Tissue Res
32
, 125-130
(1995)
63. Margoris, H.C., Beniash, E., Fowler, E.C.: Role of macromolecular assembly of enamel
matrix proteins in enamel formation. J Dent Res
85
, 775-793 (2006)
64. Fukae, M., Yamamoto, R., Karakido, T., Shimoda, S., Tanabe, T.: Micelle structure of
amelogenin in porcine secretory enamel. J Dent Res
86
(8), 758-763 (2007)
65. Bartlett, J.D., Simmer, J.P.: Proteinases in developing dental enamel. Crit Rev Oral Biol Med
10
, 425-441 (1999)
66. Simmer, J.P., Fukae, M., Tanabe, T., Ymakoshi, Y., Uchida, T., Xue, J.: Purification,
characterization, and cloning of enamel matrix serine protease 1. J Dent Res
77
, 377-386
(1998)
67. Goto, Y., Kogure, E., Takagi, T., Aimoto, S., Aoba, T.: Molecular conformation of porcine
amelogenin in solution: three folding units at the N-terminal, central, and C-terminal regions.
J Biochem
113
, 55-60 (1993)
68. Matsushima, N., Izumi, Y., Aoba, T.: Small-angle X-Ray scattering and computer-Aided
molecular modeling studies of 20 kDa fragment of porcine amelogenin: Does amelogenin
adopt an elongated bundle structure? J Biochem
123
, 150-156 (1998)
69. Aoba, T., Moreno, E.C.: The enamel fluid in the early secretory stage of porcine amelogen-
esis: chemical composition and saturation with respect to enamel mineral. Calcif Tissue Int
41
, 86-94 (1987)
70. Amano, T., Sato, K., Aoba, T.: Soluble constituents in the fluid environment of pig and rat
developing enamel and their relevance to the regulation of mineralization. Jpn J Oral Biol
43
, 257-267 (2001)
71. Sasaki, S., Takagi, T., Suzuki, M.: Cyclic changes in pH in bovine developing enamel as
sequential bands. Arch Oral Biol
36
, 227-231 (1991)
72. Moreno, E.C., Aoba, T.: Comparative solubility study of human dental enamel, dentin, and
hydroxyapatite. Calcif Tissue Int
49
, 6-13 (1991)
73. McConnel, D.: Recent advance in the investigation of the crystal chemistry of dental enamel.
Arch Oral Biol
3
, 28-34 (1960)
74. Aoba, T., Moreno, E.C.: Changes in the nature and composition of enamel mineral during
porcine amelogenesis. Calcif Tissue Int
47
, 356-364 (1990)
75. Aoba, T., Moreno, E.C.: Changes in the solubility of enamel mineral at various stages of
porcine amelogenesis. Calcif Tissue Int
50
, 266-272 (1992)
76. Shimoda, S., Aoba, T., Moreno, E.C.: Acid-phosphate contents in porcine enamel mineral at
various stages of amelogenesis. J Dent Res
70
, 1516-1523 (1991)
77. Aoba, T., Sato, K.: Mechanism of developmental enamel mineralization: enamel fluid,
crystals, and organic matrix. In Tooth Ename, (Association for Comparative Biology of
Tooth Enamel), pp.67-81. Wakaba Pub. Inc., Japan (2009)
78. Moreno, E.C., Kresak, M., Zahradnik, R.T.: Fluoridated hydroxyapatite solubility and caries
formation. Nature
247
, 64-65 (1974)
79. Brown, W.E., Mathew, M., Tung, M.S.: Crystal chemistry of octacalcium phosphate. In:
Pamplin, B.R. (ed.) Progress in crystal growth and characterization, vol. 4, pp. 59-87.
Pergamon Press Ltd., Great Britain (1981)
80. LeGeroe, R.Z.: Calcium phosphate in oral biology and medicine. Karger, Baskel (1991)
81. Elliott, J.C.: Structure and chemistry of the apatites and other calcium orthophosphates,
vol. 18. Studies in inorganic chemistry, Elsevier, London (1994)
82. Chickerur, N.S., Tung, M.S., Brown, W.E.: A mechanism for incorporation of carbonate into
apatite. Calcif Tissue Int
32
, 55-62 (1980)
83. LeGeroe, R.Z.: Apatites in biological systems. In: Pamplin, B.R. (ed.) Progress in crystal
growth and characterization, vol. 4, pp. 1-45. Pergamon Press Ltd., Great Britain (1981)
84. Shimoda, S., Aoba, T., Moreno, E.C., Miake, Y.: Effect of solution composition on
morphological and structural feature of carbonated calcium apatites. J Dent Res
69
,
1731-1740 (1990)
