Cornelius Lemke scite author profile

Peptide methionine sulfoxide reductase (MSRA) catalyzes the reduction of methionine sulfoxide to methionine. This widely expressed enzyme constitutes an important repair mechanism for oxidatively damaged proteins, which accumulate during the manifestation of certain degenerative diseases and aging processes. In addition, it is discussed to be involved in regulatory processes. Here we address the question of how the enzyme's diverse functions are reflected in its subcellular localization. Using fusions of the human version of MSRA with the enhanced green fluorescence protein expressed in various mammalian cell lines, we show a distinct localization at mitochondria. The N-terminal 23 amino acid residues contain the signal for this mitochondrial targeting. Activity tests showed that they are not required for enzyme function. Mitochondrial localization of native MSRA in mouse and rat liver slices was verified with an MSRA-specific antibody by using immunohistochemical methods. The protein was located in the mitochondrial matrix, as demonstrated by using pre-embedding immunostaining and electron microscopy. Mitochondria are the major source of reactive oxygen species (ROS). Therefore, MSRA has to be considered an important means for the general reduction of ROS release from mitochondria.

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Sequence-specific Binding of prePhoD to Soluble TatAd Indicates Protein-mediated Targeting of the Tat Export in Bacillus subtilis

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Westermann

Volkmer

et al. 2003

Journal of Biological Chemistry

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Nanosurgery of cells and chromosomes using near-infrared twelve-femtosecond laser pulses

et al. 2012

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ABSTRACT. Laser-assisted surgery based on multiphoton absorption of near-infrared laser light has great potential for high precision surgery at various depths within the cells and tissues. Clinical applications include refractive surgery (fs-LASIK). The non-contact laser method also supports contamination-free cell nanosurgery. In this paper we describe usage of an ultrashort femtosecond laser scanning microscope for sub-100 nm surgery of human cells and metaphase chromosomes. A mode-locked 85 MHz Ti:Sapphire laser with an M-shaped ultrabroad band spectrum (maxima: 770 nm/830 nm) and an in situ pulse duration at the target ranging from 12 fs up to 3 ps was employed. The effects of laser nanoprocessing in cells and chromosomes have been quantified by atomic force microscopy. These studies demonstrate the potential of extreme ultrashort femtosecond laser pulses at low mean milliwatt powers for sub-100 nm surgery of cells and cellular organelles.

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The shape of caveolae is omega-like after glutaraldehyde fixation and cup-like after cryofixation

Schlörmann

Steiniger

Richter

et al. 2009

Histochem Cell Biol

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Caveolae were defined as flask- or omega-shaped plasma membrane invaginations, abundant in adipocytes, fibroblasts, endothelial and smooth muscle cells. The major protein component of caveolar membranes is an integral membrane protein named caveolin. We compared the freeze-fracture behavior of caveolae in glutaraldehyde-fixed and cryofixed mouse fibroblast cells and found distinct differences. In glutaraldehyde-fixed cells almost all caveolae were cross-fractured through their pore and only very few caveolar membranes were membrane-fractured. We found the reverse situation in rapid frozen cells without any chemical fixation where most of the caveolae were membrane-fractured, showing different degrees of invagination from nearly flat to deeply invaginated. In ultrathin sections of glutaraldehyde-fixed heart endothelial cells, caveolae exhibit the well known omega-like shape. In high-pressure frozen, freeze-substituted and low temperature embedded heart endothelial cells, the caveolae frequently exhibit a cup-like shape without any constriction or pore. The cup-like caveolar shape could also be shown by tilt series analysis of freeze-fracture replicas obtained from cryofixed cells. Freeze-fracture immunolabeling of caveolin-1 revealed a lateral belt-like caveolin alignment. These findings point out that the constricted "neck" region of caveolae in most cases is an effect that is caused and intensified by the glutaraldehyde fixation. Our data indicate that caveolae in vivo show all degrees of invagination from nearly flat via cup-like depressed to in a few cases omega-like.

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Cornelius Lemke

Hemolysis of human erythrocytes with saponin affects the membrane structure

Mitochondrial targeting of the human peptide methionine sulfoxide reductase (MSRA), an enzyme‐involved in the repair of oxidized proteins

Sequence-specific Binding of prePhoD to Soluble TatAd Indicates Protein-mediated Targeting of the Tat Export in Bacillus subtilis

Nanosurgery of cells and chromosomes using near-infrared twelve-femtosecond laser pulses

The shape of caveolae is omega-like after glutaraldehyde fixation and cup-like after cryofixation

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