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Untersuchungen der Bildungsprozesse und der Struktur des ...

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LITERATURVERZEICHNIS

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LITERATURVERZEICHNIS [69] Ingrid M. Weiss, Christian Renner, Markus G. Strigl, and Monika Fritz. A Simple and Reliable Method for the Determination and Localization of Chitin in Abalone Nacre. Chemistry of Materials, 14:3252–3259, 2002. [70] Kurt Drickamer. C-type lectin-like domains. Current Opinion in Structural Biology, 9(5):585– 590, 1999. [71] M. T. Hincke, C. P. W. Tsang, M. Courtney, V. Hill, and R. Narbaitz. Purification and immunochemistry of a soluble matrix protein of the chicken eggshell (ovocleidin 17). Calcified Tissue International, 56(6):578–583, 1995. [72] J. A. Bertrand, D. Pignol, J. P. Bernard, J. M. Verdier, J. C. Dagorn, and J. C. Fontecilla-Camps. Crystal structure of human lithostathine, the pancreatic inhibitor of stone formation. EMBO Journal, 15(11):2678–2684, 1996. [73] V. Hwa, Y. Oh, and RG Rosenfeld. Insulin-like growth factor binding proteins: a proposed superfamily. Acta Pædiatrica, 88:37–45, 1999. [74] Ingrid M. Weiss, Walter Göhring, Monika Fritz, and Karlheinz Mann. Perlustrin, a Haliotis laevigata (Abalone) Nacre Protein, Is Homologous to the Insulin-like Growth Factor Binding Protein N-Terminal Module of Vertebrates. Biochemical and Biophysical Research Communications, 285(2):244–249, 2001. [75] Xueyu Shen, Angela M. Belcher, Paul K. Hansma, Galen D. Stucky, and Daniel E. Morse. Molecular Cloning and Characterization of Lustrin A, a Matrix Protein from Shell and Pearl Nacre of Haliotis rufescens. Journal of Biological Chemistry, 272(51):32472–32481, 1997. [76] Martina Michenfelder, Germaine Fu, Camille Lawrence, James C. Weaver, Brandon A. Wustman, Laura Taranto, John Spencer Evans, and Daniel E. Morse. Characterization of two molluscan crystal-modulating biomineralization proteins and identification of putative mineral binding domains. Biopolymers, 70(4):522–533, 2003. [77] Michio Suzuki, Kazuko Saruwatari, Toshihiro Kogure, Yuya Yamamoto, Tatsuya Nishimura, Takashi Kato, and Hiromichi Nagasawa. An Acidic Matrix Protein, Pif, Is a Key Macromolecule for Nacre Formation. Science, 325(5946):1388–1390, 2009. [78] H. Miyamoto, T. Miyashita, M. Okushima, S. Nakano, T Morita, and A. Matsushiro. A carbonic anhydrase from the nacreous layer in oyster pearls. Proceedings of the National Academy of Sciences, 93(18):9657–9660, 1996. [79] Hiroshi Miyamoto, Fumiko Miyoshi, and Jun Kohno. The Carbonic Anhydrase Domain Protein Nacrein is Expressed in the Epithelial Cells of the Mantle and Acts as a Negative Regulator in Calcification in the Mollusc Pinctada fucata. Zoological Science, 22:311–315, 2005. [80] Jr. Sherwood W. Wise and William W. Hay. Scanning Electron Microscopy of Molluscan Shell Ultrastructures II. Observations of Growth Surfaces. Transactions of the American Microscopical Society, 87(4):419–430, 1968. [81] Sherwood W. Wise Jr. Microarchitecture and Deposition of Gastropod Nacre. Science, 167(3924):1486–1488, 1970. [82] S. Weiner, Y. Talmon, and W. Traub. Electron diffraction of mollusc shell organic matrices and their relationship to the mineral phase. International Journal of Biological Macromolecules, 5(6):325–328, 1983. [83] Stephen Weiner and Leroy Hood. Soluble Protein of the Organic Matrix of Mollusk Shells: A Potential Template for Shell Formation. Science, 190(4218):987–989, 1975. [84] Stephen Weiner. Aspartic acid-rich proteins: Major components of the soluble organic matrix of mollusk shells. Calcified Tissue International, 29(1):163–167, 1979. 117

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