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2. Biochemical and electron microscopic characterization of the F1F0ATP Synthase from the hyperthermophilic eubacteriumAquifex aeolicus

Author

Hartmut Michel, Isam Rais, Michael Radermacher, Guohong Peng, Michael Karas, and Mihnea Bostina

Subjects
Mass spectrometric identification, Models, Molecular, Protein subunit, Molecular Sequence Data, Biophysics, Aquifex aeolicus, Peptide Mapping, Biochemistry, b Subunit, Electron microscopic single particle analysis, Protein Structure, Secondary, Peptide mass fingerprinting, Tandem Mass Spectrometry, Structural Biology, F1F0-ATP synthase, Genetics, Eubacterium, Amino Acid Sequence, Molecular Biology, Electron microscopic, Bacteria, Sequence Homology, Amino Acid, biology, Chemistry, Cell Biology, F1F0 ATPase, biology.organism_classification, Microscopy, Electron, Protein Subunits, Sequence homology, Stalk, Bacterial Proton-Translocating ATPases, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
Abstract

The F1F0 ATP synthase has been purified from the hyperthermophilic eubacterium Aquifex aeolicus and characterized. Its subunits have been identified by MALDI-mass spectrometry through peptide mass fingerprinting and MS/MS. It contains the canonical subunits alpha, beta, gamma, delta and epsilon of F-1 and subunits a and c of F-0. Two versions of the b subunit were found, which show a low sequence homology to each other. Most likely they form a heterodimer. An electron microscopic single particle analysis revealed clear structural details, including two stalks connecting F-1 and F-0. In several orientations the central stalk appears to be tilted and/or kinked. It is unclear whether there is a direct connection between the peripheral stalk and the 6 subunit. (c) 2006 Federation of European Biochemical Societies. Published by Elsevier B.V. All rights reserved.

Published
2006
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3. Processing of the 24 kDa subunit mitochondrial import signal is not required for assembly of functional complex I in Yarrowia lipolytica

Author

Michael Karas, Paule Bénit, Ulrich Brandt, Klaus Zwicker, Pierre Rustin, Isam Rais, Albina Abdrakhmanova, and Stefan Kerscher

Subjects
Mutation, biology, Protein subunit, Mutant, Respiratory chain, Intron, Yarrowia, Mitochondrion, biology.organism_classification, medicine.disease_cause, Biochemistry, Exon, medicine
Abstract

A small deletion in the second intron of human NDUFV2 (IVS2+5_+8delGTAA) has been shown to cause hypertrophic cardiomyopathy and encephalomyopathy [Benit, P., Beugnot, R., Chretien, D., Giurgea, I., de Lonlay-Debeney, P., Issartel, J.P., Kerscher, S., Rustin, P., Rotig, A. & Munnich, A. (2003) Human Mutat.21, 582–586]. Skipping of exon 2 results in a partial deletion of the mitochondrial targeting sequence of the precursor for the 24 kDa subunit of respiratory chain complex I. Immunoreactivity of the 24 kDa subunit and complex I activity, both present at 30–50% of normal levels in patient mitochondria, raised the question of how the mutant 24 kDa subunit precursor can be imported and assembled into functional complex I. In the present study, we have remodelled the human NDUFV2 mutation by deleting codons 17–32 from the orthologous NUHM gene of the obligate aerobic yeast Yarrowia lipolytica. The resulting mutant enzyme was indistinguishable from parental complex I with regard to activity, inhibitor sensitivity and EPR signature. Size, isoelectric point and presumably also N-terminal acetylation were altered, indicating that the residual targeting sequence was retained on the mature 24 kDa protein. Complete removal of the NUHM presequence resulted in the absence of complex I activity, strongly arguing against the presence of an internal mitochondrial targeting sequence within the 24 kDa protein.

Published
2004
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4. Physicochemical characterisation of cationic polybutylcyanoacrylat-nanoparticles by fluorescence correlation spectroscopy

Author

Markus Wolkenhauer, Michael Karas, Isam Rais, Christiane Georgens, Jörg Weyermann, Jörg Kreuter, Dirk Lochmann, and Andreas Zimmer

Subjects
Light, Chemistry, Analytical chemistry, Pharmaceutical Science, Nanoparticle, Fluorescence correlation spectroscopy, General Medicine, Enbucrilate, Microscopy, Atomic Force, Fluorescence, Nanostructures, Diffusion, Molecular Weight, Spectrometry, Fluorescence, Dynamic light scattering, Cations, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Microscopy, Microscopy, Electron, Scanning, Scattering, Radiation, Particle, Fluorescence cross-correlation spectroscopy, Particle size, Particle Size, Biotechnology
Abstract

The aim of this study was to compare different physical and chemical methods with fluorescence correlation spectroscopy (FCS) in order to characterise cationic acrylate nanoparticles (NP), which can deliver oligonucleotides (ON) into mammalian cells. These positively charged nanoparticles were prepared from diethylaminoethyl dextran (DEAE-dextran) and poly(n-butyl-2-cyanoacrylate) (PBCA). NP consists of PBCA oligochains with an average size of PBCA 9 mer and were formed by entrapping DEAE-dextran and dextran 70,000 in high amounts into the particle matrix. The oligochain length of PBCA was investigated by mass-spectroscopy (MALDI TOF). The molecular weight of a particle with d = 108 nm was estimated to be approximately 3.6 x 10(8) Da. The mean size of the nanoparticles were in a range of dh = 130-140 nm, as determined independently by FCS and dynamic light scattering. Atomic force microscopy and scanning electron microscopy images confirm this size range. Furthermore, the particle mass of the PBCA-NP was estimated by FCS measurements. For this approach two new methods for fluorescence labelling of cationic particles were developed. Fluorescent labelled dextran 70,000 was entrapped into the particle matrix; in addition, the derivatisation of hydroxyl groups of the NP was achieved with 5-([4,6-dichlorotriazin-2-yl]amino) fluorescein (DTAF). ON can be localised in a complex with the NP by dual-colour fluorescence cross correlation spectroscopy measurements. The zetapotential of the unloaded NP was positively charged with about +39 mV and decreased down to -40 mV on addition of excess ON. After centrifugation quantification of the ON loading onto the particles by strong anion exchange high performance liquid chromatography (SAX HPLC) and FCS showed that approximately 20 microg ON per 100 g NP was adsorbed. The FCS measurements of the ON adsorption in situ was found to be much higher with approximately 95 microg ON per 100 g NP.

Published
2004
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5. LC-nanospray-MS/MS analysis of hydrophobic proteins from membrane protein complexes isolated by blue-native electrophoresis

Author

Hermann Schägger, Isam Rais, Martin Vollmer, Michael Karas, Anabel S. Fandiño, and Helmuth Elgass

Subjects
Gel electrophoresis, Proteomics, Spectrometry, Mass, Electrospray Ionization, Two-dimensional gel electrophoresis, Chromatography, Protein mass spectrometry, Isoelectric focusing, Chemistry, Molecular Sequence Data, Membrane Proteins, Gel electrophoresis of proteins, Tandem mass spectrometry, Mitochondria, Heart, Mitochondrial Proteins, Biochemistry, Membrane protein, Animals, Nanotechnology, Cattle, Electrophoresis, Gel, Two-Dimensional, Electrophoresis, Polyacrylamide Gel, Bottom-up proteomics, Amino Acid Sequence, Spectroscopy, Chromatography, High Pressure Liquid
Abstract

The application of two-dimensional electrophoresis for the identification of hydrophobic membrane proteins is principally hampered by precipitation of many of these proteins during first-dimension, isoelectric focusing. Therefore new strategies towards the identification and characterization of membrane proteins are being developed. In this work we present a direct and rapid approach from blue-native gels to mass spectrometry, which allows the analyses of complete complexes and prevents protein aggregation of hydrophobic regions during electrophoresis. We combine blue-native gel electrophoresis and liquid chromatography--nanospray-iontrap tandem mass spectrometry to analyze the composition of oxidative phosphorylation complexes I, III, IV and V from bovine-heart mitochondria as a model system containing a number of highly hydrophobic proteins. Bands from blue-native gels were subjected either to in-gel or to in-solution tryptic digestion. The obtained peptide mixtures were further analyzed by liquid chromatography--tandem mass spectrometry and the corresponding proteins were identified by database search. From a total of 86 proteins, 67 protein subunits could be identified including all highly hydrophobic components, except the ND4L and ND6 subunits of complex I. We demonstrate that liquid chromatography--tandem mass spectrometry combined to blue-native electrophoresis is a straightforward tool for proteomic analysis of multiprotein complexes, and especially for the identification of very hydrophobic membrane protein constituents that are not accessible by common isoelectric focusing/sodium dodecyl sulphate gel electrophoresis.

Published
2005

6. Two-dimensional electrophoresis for the isolation of integral membrane proteins and mass spectrometric identification

Author

Hermann Schägger, Michael Karas, and Isam Rais

Subjects
Chromatography, Cell Respiration, Membrane Proteins, Mass spectrometry, Proteomics, Biochemistry, Mass Spectrometry, Silver stain, Mitochondrial Proteins, chemistry.chemical_compound, Electrophoresis, chemistry, Membrane protein, Acrylamide, Animals, Cattle, Electrophoresis, Gel, Two-Dimensional, Sodium dodecyl sulfate, Molecular Biology, Integral membrane protein
Abstract

Acrylamide concentration, urea content, and the trailing ion used for sodium dodecyl sulfate (SDS)-gels modify electrophoretic protein mobilities in a protein-dependent way. Varying these parameters we coupled two SDS-gels to a two-dimensional (2-D) electrophoresis system. Protein spots in 2-D gels are dispersed around a diagonal. Hydrophobic proteins are well separated from water-soluble proteins which is the essential advantage of the novel technique. Mass spectrometric identification of previously unaccessible hydrophobic proteins is now possible.

Published
2004

7. Processing of the 24 kDa subunit mitochondrial import signal is not required for assembly of functional complex I in Yarrowia lipolytica

Author

Stefan, Kerscher, Paule, Bénit, Albina, Abdrakhmanova, Klaus, Zwicker, Isam, Rais, Michael, Karas, Pierre, Rustin, and Ulrich, Brandt

Subjects
Electron Transport Complex I, Genetic Complementation Test, Molecular Sequence Data, Yarrowia, NADH Dehydrogenase, Exons, Intracellular Membranes, Protein Sorting Signals, Mitochondrial Proteins, Protein Subunits, Mutation, Animals, Humans, Amino Acid Sequence, Sequence Alignment
Abstract

A small deletion in the second intron of human NDUFV2 (IVS2+5_+8delGTAA) has been shown to cause hypertrophic cardiomyopathy and encephalomyopathy [Bénit, P., Beugnot, R., Chretien, D., Giurgea, I., de Lonlay-Debeney, P., Issartel, J.P., Kerscher, S., Rustin, P., Rötig, A.Munnich, A. (2003) Human Mutat.21, 582-586]. Skipping of exon 2 results in a partial deletion of the mitochondrial targeting sequence of the precursor for the 24 kDa subunit of respiratory chain complex I. Immunoreactivity of the 24 kDa subunit and complex I activity, both present at 30-50% of normal levels in patient mitochondria, raised the question of how the mutant 24 kDa subunit precursor can be imported and assembled into functional complex I. In the present study, we have remodelled the human NDUFV2 mutation by deleting codons 17-32 from the orthologous NUHM gene of the obligate aerobic yeast Yarrowia lipolytica. The resulting mutant enzyme was indistinguishable from parental complex I with regard to activity, inhibitor sensitivity and EPR signature. Size, isoelectric point and presumably also N-terminal acetylation were altered, indicating that the residual targeting sequence was retained on the mature 24 kDa protein. Complete removal of the NUHM presequence resulted in the absence of complex I activity, strongly arguing against the presence of an internal mitochondrial targeting sequence within the 24 kDa protein.

Published
2004

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