Species-specific polyamines from diatoms control silica morphology
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- 5 December 2000
- journal article
- Published by Proceedings of the National Academy of Sciences in Proceedings of the National Academy of Sciences
- Vol. 97 (26) , 14133-14138
- https://doi.org/10.1073/pnas.260496497
Abstract
Biomineralizing organisms use organic molecules to generate species-specific mineral patterns. Here, we describe the chemical structure of long-chain polyamines (up to 20 repeated units), which represent the main organic constituent of diatom biosilica. These substances are the longest polyamine chains found in nature and induce rapid silica precipitation from a silicic acid solution. Each diatom is equipped with a species-specific set of polyamines and silica-precipitating proteins, which are termed silaffins. Different morphologies of precipitating silica can be generated by polyamines of different chain lengths as well as by a synergistic action of long-chain polyamines and silaffins.Keywords
This publication has 20 references indexed in Scilit:
- Beyond micromachining: the potential of diatomsTrends in Biotechnology, 1999
- Silicic Acid Polymerization Catalyzed by Amines and PolyaminesBulletin of the Chemical Society of Japan, 1998
- Synthesis of inorganic materials with complex formNature, 1996
- Lamellar aluminophosphates with surface patterns that mimic diatom and radiolarian microskeletonsNature, 1995
- Aspects of silicification in wall morphogenesis of diatomsPhilosophical Transactions of the Royal Society of London. B, Biological Sciences, 1984
- WALL MORPHOGENESIS INCOSCINODISCUS WAILESIIGRAN AND ANGST. I. VALVE MORPHOLOGY AND DEVELOPMENT OF ITS ARCHITECTURE1Journal of Phycology, 1983
- Minerals Formed by OrganismsScience, 1981
- Wall morphogenesis in diatoms: Deposition of silica by cytoplasmic vesiclesProtoplasma, 1979
- THE POLYMORPHIC DIATOM PHAEODACTYLUM TRICORNUTUM: ULTRASTRUCTURE OF ITS MORPHOTYPES1,2Journal of Phycology, 1978
- Studies on the biochemistry and fine structure of silicia shell formation in diatoms VII. Sequential cell wall development in the pennateNavicula pelliculosaProtoplasma, 1977