Ecology, Diversity, and Evolution of Magnetotactic Bacteria
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TLDR
The purpose of this review is focused on the diversity and the ecology of the MTB and also the evolution and transfer of the molecular determinants involved in magnetosome formation.Abstract:
SUMMARY Magnetotactic bacteria (MTB) are widespread, motile, diverse prokaryotes that biomineralize a unique organelle called the magnetosome. Magnetosomes consist of a nano-sized crystal of a magnetic iron mineral that is enveloped by a lipid bilayer membrane. In cells of almost all MTB, magnetosomes are organized as a well-ordered chain. The magnetosome chain causes the cell to behave like a motile, miniature compass needle where the cell aligns and swims parallel to magnetic field lines. MTB are found in almost all types of aquatic environments, where they can account for an important part of the bacterial biomass. The genes responsible for magnetosome biomineralization are organized as clusters in the genomes of MTB, in some as a magnetosome genomic island. The functions of a number of magnetosome genes and their associated proteins in magnetosome synthesis and construction of the magnetosome chain have now been elucidated. The origin of magnetotaxis appears to be monophyletic; that is, it developed in a common ancestor to all MTB, although horizontal gene transfer of magnetosome genes also appears to play a role in their distribution. The purpose of this review, based on recent progress in this field, is focused on the diversity and the ecology of the MTB and also the evolution and transfer of the molecular determinants involved in magnetosome formation.read more
Citations
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References
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Journal ArticleDOI
Occurrence and microscopic analyses of multicellular magnetotactic prokaryotes from coastal sediments in the Yellow Sea
TL;DR: High-resolution transmission electron microscopy and energy dispersive X-ray analysis indicated that these MMPs biomineralized bullet-shaped magnetite crystals in highly organized parallel chains within which the magnetosomes were oriented in the same direction.
Journal ArticleDOI
Cell Adhesion, Multicellular Morphology, and Magnetosome Distribution in the Multicellular Magnetotactic Prokaryote Candidatus Magnetoglobus multicellularis
Fernanda Abreu,Karen T. Silva,Pedro Leão,Iamê Alves Guedes,Carolina N. Keim,Marcos Farina,Ulysses Lins +6 more
TL;DR: The results indicate that cellular interactions are essential for the determination of individual cell shape and the magnetic properties of the organism and are likely directly associated with the morphological changes that occur during the multicellular life cycle of this species.
Book ChapterDOI
Cell Biology of Magnetosome Formation
TL;DR: This work provides a review of the current knowledge of magnetosomes from a cell biological perspective focusing on the composition and formation of the magnetosome membrane and the cytoskeletal framework organizing individual magnetosom chains into chains.
Journal ArticleDOI
Spatiotemporal distribution of the magnetotactic multicellular prokaryote Candidatus Magnetoglobus multicellularis in a Brazilian hypersaline lagoon and in microcosms.
Juliana L. Martins,Thaís S. Silveira,Fernanda Abreu,Fernando P. Almeida,Alexandre S. Rosado,Ulysses Lins +5 more
TL;DR: The spatiotemporal distribution of one unusual morphotype of magnetotactic prokaryotes in sediments of Araruama Lagoon is reported, including its annual distribution and its abundance compared with the total bacterial community.
Journal ArticleDOI
Novel Rod-Shaped Magnetotactic Bacteria Belonging to the Class Alphaproteobacteria
Wenyan Zhang,Wenyan Zhang,Ke Zhou,Ke Zhou,Hongmiao Pan,Hongmiao Pan,Haijian Du,Haijian Du,Yi-Ran Chen,Yi-Ran Chen,Rui Zhang,Rui Zhang,Wanneng Ye,Chaojing Lu,Tian Xiao,Tian Xiao,Long-Fei Wu,Long-Fei Wu +17 more
TL;DR: Novel large, rod-shaped magnetotactic bacteria found in intertidal sediments of the Yellow Sea, China are affiliated with the Alphaproteobacteria and may represent a new genus of MTB.