sg:pub.10.1186/s12915-016-0290-1 - Springer Nature SciGraph

Article Info

DATE

2016-12

AUTHORS

Mauricio Toro-Nahuelpan, Frank D. Müller, Stefan Klumpp, Jürgen M. Plitzko, Marc Bramkamp, Dirk Schüler

ABSTRACT

BACKGROUND: The navigation of magnetotactic bacteria relies on specific intracellular organelles, the magnetosomes, which are membrane-enclosed crystals of magnetite aligned into a linear chain. The magnetosome chain acts as a cellular compass, aligning the cells in the geomagnetic field in order to search for suitable environmental conditions in chemically stratified water columns and sediments. During cytokinesis, magnetosome chains have to be properly positioned, cleaved and separated in order to be evenly passed into daughter cells. In Magnetospirillum gryphiswaldense, the assembly of the magnetosome chain is controlled by the actin-like MamK, which polymerizes into cytoskeletal filaments that are connected to magnetosomes through the acidic MamJ protein. MamK filaments were speculated to recruit the magnetosome chain to cellular division sites, thus ensuring equal organelle inheritance. However, the underlying mechanism of magnetic organelle segregation has remained largely unknown. RESULTS: Here, we performed in vivo time-lapse fluorescence imaging to directly track the intracellular movement and dynamics of magnetosome chains as well as photokinetic and ultrastructural analyses of the actin-like cytoskeletal MamK filament. We show that magnetosome chains undergo rapid intracellular repositioning from the new poles towards midcell into the newborn daughter cells, and the driving force for magnetosomes movement is likely provided by the pole-to-midcell treadmilling growth of MamK filaments. We further discovered that splitting and equipartitioning of magnetosome chains occurs with unexpectedly high accuracy, which depends directly on the dynamics of MamK filaments. CONCLUSION: We propose a novel mechanism for prokaryotic organelle segregation that, similar to the type-II bacterial partitioning system of plasmids, relies on the action of cytomotive actin-like filaments together with specific connectors, which transport the magnetosome cargo in a fashion reminiscent of eukaryotic actin-organelle transport and segregation mechanisms. More... »

PAGES

References to SciGraph publications

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Journal

TITLE

BMC Biology

ISSUE

VOLUME

Subjects

FOR: Biochemistry And Cell Biology

FOR: Biological Sciences

MESH: Actins

MESH: Bacterial Proteins

MESH: Cytoskeleton

MESH: Magnetosomes

MESH: Magnetospirillum

Author Affiliations

Max Planck Institute of Biochemistry

University of Bayreuth

University of Göttingen

Ludwig Maximilian University of Munich

Identifiers

URI

http://scigraph.springernature.com/pub.10.1186/s12915-016-0290-1

DOI

http://dx.doi.org/10.1186/s12915-016-0290-1

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1009139302

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/27733152

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