Frank Mueller scite author profile

SummaryMagnetotactic bacteria navigate along magnetic field lines using well-ordered chains of membraneenclosed magnetic crystals, referred to as magnetosomes, which have emerged as model to investigate organelle biogenesis in prokaryotic systems. To become divided and segregated faithfully during cytokinesis, the magnetosome chain has to be properly positioned, cleaved and separated against intrachain magnetostatic forces. Here we demonstrate that magnetotactic bacteria use dedicated mechanisms to control the position and division of the magnetosome chain, thus maintaining magnetic orientation throughout divisional cycle. Using electron and time-lapse microscopy of synchronized cells of Magnetospirillum gryphiswaldense, we confirm that magnetosome chains undergo a dynamic pole-to-midcell translocation during cytokinesis. Nascent chains were recruited to division sites also in division-inhibited cells, but not in a mamK mutant, indicating an active mechanism depending upon the actin-like cytoskeletal magnetosome filament. Cryo-electron tomography revealed that both the magnetosome chain and the magnetosome filament are spilt into halves by asymmetric septation and unidirectional indentation, which we interpret in terms of a specific adaptation required to overcome the magnetostatic interactions between separating daughter chains. Our study demonstrates that magnetosome division and segregation is co-ordinated with cytokinesis and resembles partitioning mechanisms of other organelles and macromolecular complexes in bacteria.

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Reproducible quantification of osteoclastic activity: Characterization of a biomimetic calcium phosphate assay

Maria

Prukner

Sheikh

et al. 2013

J Biomed Mater Res

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Osteoclasts are responsible for bone and joint destruction in rheumatoid arthritis, periodontitis, and osteoporosis. Animal tusk slice assays are standard for evaluating the effect of therapeutics on these cells. However, in addition to batch-to-batch variability inherent to animal tusks, their use is clearly not sustainable. Our objective was to develop and characterize a biomimetic calcium phosphate assay based on the use of phase pure hydroxyapatite coated as a thin film on the surface of culture plates, to facilitate the reproducible quantification of osteoclast resorptive activity. Osteoclasts were formed from RAW 264.7 mouse monocyte cell line using a pro-resorptive cytokine RANKL (50 ng/mL). No change in substrate appearance was noted after culture with media without cells, or undifferentiated monocytes. Only in the presence of osteoclasts localized areas of calcium phosphate dissolution were observed. The total area resorbed positively correlated with the osteoclast numbers (R(2) = 0.99). The resorbed area was significantly increased by the addition of RANKL, and decreased after application of known inhibitors of osteoclast resorptive activity, calcitonin (10 μM), or alendronate (100 μM). Thus, calcium phosphate coated substrates allow reliable monitoring of osteoclast resorptive activity and offer an alternative to animal tusk slice assays.

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Analysis assistant for single-molecule force spectroscopy data on membrane proteins—MPTV

Mueller¹,

Müller

Labudde

2006

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Downward Continuation of Airborne Gravimetry and Gradiometry Data Using Space Localizing Spline Functions

Mueller

Mayer‐Gürr

Makhloof

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Local Optical Temperature Measurements around Magnetosomes within Single Bacteria to Study Size and Geometry Effects on Heating

Huang

Munshi

Mueller

et al. 2014

Biophysical Journal

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Cw-OPO-based photoacoustic spectrometer for highly sensitive detection of ethane and other volatile organic compounds

Mueller

Popp

Schiller

et al. 2004

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Comparison of Downward Continuation Methods of Airborne Gravimetry Data

Mueller

Mayer-Guerr

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Frank Mueller

Magnetosome chains are recruited to cellular division sites and split by asymmetric septation

Reproducible quantification of osteoclastic activity: Characterization of a biomimetic calcium phosphate assay

Analysis assistant for single-molecule force spectroscopy data on membrane proteins—MPTV

Downward Continuation of Airborne Gravimetry and Gradiometry Data Using Space Localizing Spline Functions

Local Optical Temperature Measurements around Magnetosomes within Single Bacteria to Study Size and Geometry Effects on Heating

Cw-OPO-based photoacoustic spectrometer for highly sensitive detection of ethane and other volatile organic compounds

Comparison of Downward Continuation Methods of Airborne Gravimetry Data

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