2016
DOI: 10.1128/jb.00280-16
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Comparative Subcellular Localization Analysis of Magnetosome Proteins Reveals a Unique Localization Behavior of Mms6 Protein onto Magnetite Crystals

Abstract: The magnetosome is an organelle specialized for inorganic magnetite crystal synthesis in magnetotactic bacteria. The complex mechanism of magnetosome formation is regulated by magnetosome proteins in a stepwise manner. Protein localization is a key step for magnetosome development; however, a global study of magnetosome protein localization remains to be conducted. Here, we comparatively analyzed the subcellular localization of a series of green fluorescent protein (GFP)-tagged magnetosome proteins. The protei… Show more

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Cited by 25 publications
(38 citation statements)
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“…These results are in good agreement with the work of Aron and coworkers ( 25 ). AMB-1 produces fragmented chains of magnetite, with magnetosome vesicles spreading along the cell’s long axis from pole to pole ( 26 , 27 ). Unlike other Magnetospirillum strains such as MSR-1, apparent gaps between magnetite crystals can be observed from electron microscopy in AMB-1 ( Fig.…”
Section: Resultsmentioning
confidence: 99%
“…These results are in good agreement with the work of Aron and coworkers ( 25 ). AMB-1 produces fragmented chains of magnetite, with magnetosome vesicles spreading along the cell’s long axis from pole to pole ( 26 , 27 ). Unlike other Magnetospirillum strains such as MSR-1, apparent gaps between magnetite crystals can be observed from electron microscopy in AMB-1 ( Fig.…”
Section: Resultsmentioning
confidence: 99%
“…Mms6 was proposed to bind iron ions to control magnetic particle size (Arakaki et al, 2003; Tanaka et al, 2011; Wang et al, 2012). Recent Mms6 structure prediction suggests that its C-terminus is hydrophilic and enriched in acidic amino acid residues, such that Mms6 can aggregate spontaneously on the surface of solution or solid phase to form polymers of varying sizes, which determine magnetic particle size (Arakaki et al, 2016; Staniland and Rawlings, 2016). Other studies suggest that self-assembled MmsF controls magnetite nanoparticle formation in vitro (Murat et al, 2011), and is a key regulator of magnetite biomineralization (Rawlings et al, 2014).…”
Section: Resultsmentioning
confidence: 99%
“…Based on the protein domain analysis of MamY by Pfam, p4, and p7 are expected to have a similarity with caspase recruitment domain, involving in apoptotic signaling and requiring CL as a binding platform to recruit apoptotic factors . In addition, based on the proteomic and genomic studies in magnetotactic bacteria, dozens of proteins including filamentous MamK protein and functionally unclear proteins have been suggested to play important roles for magnetosome formation . In eukaryotic cells, as BAR protein regulates the intracellular vesicle formation cooperated with filamentous actin protein and with various other proteins, MamY protein may also function to form the magnetosome vesicle cooperatively with other magnetosome proteins.…”
Section: Discussionmentioning
confidence: 99%
“…[67] In addition, based on the proteomic and genomic studies in magnetotactic bacteria, dozens of proteins including filamentous MamK protein and functionally unclear proteins have been suggested to play important roles for magnetosome formation. [36,39,40,68,69] In eukaryotic cells, as BAR protein regulates the intracellular vesicle formation cooperated with filamentous actin protein and with various other proteins, [70] MamY protein may also function to form the magnetosome vesicle cooperatively with other magnetosome proteins. By the utilization of these proteins with MamY, liposome tubulation efficiency may be further improve.…”
Section: Discussionmentioning
confidence: 99%