Magnetosome chain superstructure in uncultured magnetotactic bacteria.

Leida G Abraçado, Fernanda Abreu, Carolina N Keim, Andrea P C Campos, Ulysses Lins, Marcos Farina

Instituto de Ciências Biomédicas, Universidade Federal do Rio de Janeiro, CCS, bloco F, Cidade Universitária, 21941-902, Rio de Janeiro, Brazil.

Physical biology 2011

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Magnetotactic bacteria produce magnetosomes, which are magnetic particles enveloped by biological membranes, in a highly controlled mineralization process. Magnetosomes are used to navigate in magnetic fields by a phenomenon called magnetotaxis. Two levels of organization and control are recognized in magnetosomes. First, magnetotactic bacteria create a spatially distinct environment within vesicles defined by their membranes. In the vesicles, the bacteria control the size, composition and purity of the mineral content of the magnetic particles. Unique crystal morphologies are produced in magnetosomes as a consequence of this bacterial control. Second, magnetotactic bacteria organize the magnetosomes in chains within the cell body. It has been shown in a particular case that the chains are positioned within the cell body in specific locations defined by filamentous cytoskeleton elements. Here, we describe an additional level of organization of the magnetosome chains in uncultured magnetotactic cocci found in marine and freshwater sediments. Electron microscopy analysis of the magnetosome chains using a goniometer showed that the magnetic crystals in both types of bacteria are not oriented at random along the crystal chain. Instead, the magnetosomes have specific orientations relative to the other magnetosomes in the chain. Each crystal is rotated either 60°, 180° or 300° relative to their neighbors along the chain axis, causing the overlapping of the (1 1 1) and [Formula in text] capping faces of neighboring crystals. We suggest that genetic determinants that are not present or active in bacteria with magnetosomes randomly rotated within a chain must be present in bacteria that organize magnetosomes so precisely. This particular organization may also be used as an indicative biosignature of magnetosomes in the study of magnetofossils in the cases where this symmetry is observed.

Citation

Leida G Abraçado, Fernanda Abreu, Carolina N Keim, Andrea P C Campos, Ulysses Lins, Marcos Farina. Magnetosome chain superstructure in uncultured magnetotactic bacteria. Physical biology. 2011;7(4):046016