Biomineralization in Diatoms: The Organic Templates.

Ehrlich, H. and Witkowski, A. (2015) Biomineralization in Diatoms: The Organic Templates. In: Evolution of Lightweight Structures. . Biologically-inspired systems, 6 . Springer, Dordrecht, pp. 39-58. DOI 10.1007/978-94-017-9398-8_3.

[thumbnail of Ehrlich.pdf] Text
Ehrlich.pdf - Reprinted Version
Restricted to Registered users only

Download (2MB)

Supplementary data:

Abstract

While the geometries of diatom frustules have been investigated in detail, the processes leading to their formation—morphogenesis and biomineralization—are not well understood. The study of organic templates, which are suspected to be important for biosilicification of diatoms, have been mainly investigated on the basis of diverse demineralization techniques. In contrast to naturally occurring dissolution of diatom cell walls in natural habitats, all experiments in vitro were based on chemical reagents including HF- or alkali-based techniques with addition of some additives as presented in this chapter. Mostly, the amino acids (serine, threonine, hydrohyproline) diverse proteinaceous materials (frustulins, pleuralins, silaffins, silacidins, circulins) as well as polyamines have been proposed to regulate biosilicification in vivo in diatoms. In this chapter, we review the biochemical pathways and potential functions of these chemical compounds and their roles in the biomineralization process. In addition, we demonstrate the presence of chitin and discuss its potential as scaffolding as well as a template material in siliceous cell walls of diatoms. The current findings show that a complex network of different organic components is responsible for the biomineralization of diatoms. Since both the organic network and the precipitated silica are integrated in the material which forms the diatom frustule, the material properties must differ from that of pure silica. As the material properties are a crucial factor for the defensive performance of the frustule and thus their survival, it is likely that organic templates for silicification play a role both for the development process and for the improvement of the material properties of the finished shells.

Document Type: Book chapter
Keywords: Silica, Biomineralisation, Organic templates, Morphogenesis, Biochemical pathways, Amino acids Proteins, Polyamines, Chitin, Demineralization techniques
Open Access Journal?: No
Publisher: Springer
Projects: Enrichment
Date Deposited: 20 Jul 2017 08:38
Last Modified: 20 Jul 2017 08:38
URI: https://oceanrep.geomar.de/id/eprint/38830

Actions (login required)

View Item View Item