Synthesis of Magnetite Nanoparticles for Bio- and Nanotechnology: Genetic Engineering and Biomimetics of Bacterial Magnetosomes
Magnetotactic bacteria (MTB) have the ability to navigate along the Earth's magnetic field. This so‐called magnetotaxis is a result of the presence of magnetosomes, organelles which comprise nanometer‐sized intracellular crystals of magnetite (Fe3O4) enveloped by a membrane. Because of their un...
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Veröffentlicht in: | Macromolecular bioscience 2007-02, Vol.7 (2), p.144-151 |
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Sprache: | eng |
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Zusammenfassung: | Magnetotactic bacteria (MTB) have the ability to navigate along the Earth's magnetic field. This so‐called magnetotaxis is a result of the presence of magnetosomes, organelles which comprise nanometer‐sized intracellular crystals of magnetite (Fe3O4) enveloped by a membrane. Because of their unique characteristics, magnetosomes have a high potential for nano‐ and biotechnological applications, which require a specifically designed particle surface. The functionalization of magnetosomes is possible either by chemical modification of purified particles or by genetic engineering of magnetosome membrane proteins. The second approach is potentially superior to chemical approaches as a large variety of biological functions such as protein tags, fluorophores, and enzymes may be directly incorporated in a site‐specific manner during magnetosome biomineralization. An alternative to the bacterial production of magnetosomes are biomimetic approaches, which aim to mimic the bacterial biomineralization pathway in vitro. In MTB a number of magnetosome proteins with putative functions in the biomineralization of the nanoparticles have been identified by genetic and biochemical approaches. The initial results obtained by several groups indicate that some of these proteins have an impact on nanomagnetite properties in vitro. In this article the key features of magnetosomes are discussed, an overview of their potential applications are given, and different strategies are proposed for the functionalization of magnetosome particles and for the biomimetism of their biomineralization pathway. |
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ISSN: | 1616-5187 1616-5195 |
DOI: | 10.1002/mabi.200600235 |