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
Single-cell analysis reveals a novel uncultivated magnetotactic bacterium within the candidate division OP3.
Sebastian Kolinko,Christian Jogler,Emanuel Katzmann,Gerhard Wanner,Jörg Peplies,Dirk Schüler +5 more
TL;DR: A single cell-based approach was described that allowed the targeted phylogenetic and ultrastructural analysis of the magnetotactic bacterium SKK-01, which was low abundant in sediments of Lake Chiemsee and represents the first morphotype that can be assigned to the OP3 group as well as the first magnetosomes member of the PVC superphylum.
BookDOI
Magnetoreception and magnetosomes in bacteria
TL;DR: This work has shown Magnetite-Based Magnetoreception in Higher Organisms and Formation of Magnetic Minerals by Non-Magnetotactic Prokaryotes as well as mineralogical and Isotopic Properties of Biogenic Nanocrystalline Magnetites.
Journal ArticleDOI
Denitrification and Assimilatory Nitrate Reduction in Aquaspirillum magnetotacticum.
TL;DR: Results indicate that A. magnetotacticum is a microaerophilic denitrifier that is versatile in its nitrogen metabolism, concomitantly reducing NO(3) by assimilatory and dissimilatory means.
Journal ArticleDOI
IS elements as constituents of bacterial genomes
TL;DR: An overview of the present understanding of the distribution of different insertion sequences (ISs) within bacterial genomes (both chromosomes and plasmids) is provided.
Journal ArticleDOI
Combined Approach for Characterization of Uncultivated Magnetotactic Bacteria from Various Aquatic Environments
TL;DR: Both magnetic collection and “race track” purification techniques were highly effective for selective enrichment of magnetotactic bacteria from complex communities, as suggested by amplified ribosomal DNA restriction analysis and denaturing gradient gel electrophoresis combined with sequence analysis of 16S rRNA genes.