| Sortorder |
Family |
First |
Title |
Session |
| P1.3.14 |
Kahar |
Prihardi |
A crucial clue to understand the molecular rotation of c-subunit ring coupled with proton translocation through F(0) of Thermophilic bacillus PS3 ATP synthase |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.2.10 |
Kalaidzidis |
Yannis |
The Electrogenesis of Neurospora Rhodopsin Photocycle |
Molecular bioenergetics (Light-driven energy transducers) |
| P1.2.12 |
Kalaji |
Mohamed |
PS II bioenergetics of barley seedlings growing under abiotic stresses |
Molecular bioenergetics (Light-driven energy transducers) |
| P2.4.6 |
Kalinina |
Elena |
Alteration of ROS production as well as bcl-2 and bcl-xl expression under development of cancer cells resistance |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P1.1.33 |
Kamensky |
Yury |
Structural and functional roles of histidine residues in cytochrome b561, a transmembrane electron transporter in adrenal chromaffin granules |
Molecular bioenergetics (Respiratory chain) |
| P1.4.3 |
Kanazawa |
Hiroshi |
An oligomer formation and conformational change of NhaA from Helicobacter pylori studied by FRET |
Molecular bioenergetics (Energy-consuming porters) |
| P1.2.18 |
Karapetyan |
Navassard |
Blue light-induced fluorescence quenching of phycobilisomes in the cyanobacterium Synechocystis sp. PCC 6803 in the absence of the IsiA protein |
Molecular bioenergetics (Light-driven energy transducers) |
| P1.5.4 |
Karlsson |
Jenny |
Properties of the rigid PAPP-region in the linker connecting domain I and domain II in E. coli transhydrogenase |
Molecular bioenergetics (Coupling mechanisms) |
| P2.2.19 |
Kazakof |
Ruslan |
The dependence of H2O2 formation in mitochondria on succinate dehydrogenase activity |
Physiology and pathology... (Reactive oxygen species) |
| P2.4.7 |
Kervinen |
Marko |
Divergent effects of mutations that cause two different mitochondrial diseases, LHON and MELAS, on the bacterial NDH-1 |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P2.1.14 |
Khailova |
Liudmila |
The ATP/ADP–antiporter is responsible for a GDP-sensitive oleic acid- and oleic acid hydroperoxide–induced uncoupling in kidney mitochondria |
Physiology and pathology... (Uncoupling) |
| P1.2.13 |
Khodonov |
Andrey |
Study of the spectral behavoir of the crowned retinals and bacteriorhodopsin analogs |
Molecular bioenergetics (Light-driven energy transducers) |
| P1.1.35 |
Kicinska |
Anna |
Mitochondrial potassium channel modulators influence mitochondrial function of Acanthamoeba castellanii |
Molecular bioenergetics (Respiratory chain) |
| P1.5.5 |
Kirakosyan |
Gayane |
Disulfide-dithiol interchange in energy transfer for bacterial membrane proteins functioning: effects of copper ions |
Molecular bioenergetics (Coupling mechanisms) |
| P2.5.10 |
Kiselevsky |
Dmitry |
Cyanide-induced apoptosis in pea leafs |
Physiology and pathology... (Programmed death of the cell and ...) |
| P1.2.14 |
Klimov |
Vyacheslav |
Bicarbonate requirement for the water-oxidizing complex of photosystem II |
Molecular bioenergetics (Light-driven energy transducers) |
| P1.1.37 |
Klingen |
Astrid |
Redox-linked Protonation State Changes in Cytochrome bc1 Complex Identified by Poisson-Boltzmann Electrostatics Calculations |
Molecular bioenergetics (Respiratory chain) |
| P2.1.15 |
Klingenspor |
Martin |
Uncoupling protein 1 is expressed in the brain of ectothermic vertebrates |
Physiology and pathology... (Uncoupling) |
| P1.1.39 |
Klishin |
Sergey |
Ubiquinol oxidation by the cytochrome bc1 complex of Rb. capsulatus in the presence of Zn ions: Dependence on temperature and on DCCD |
Molecular bioenergetics (Respiratory chain) |
| P2.5.11 |
Knorre |
Dmitry |
Superoxide as a mediator of acetate-induced apoptosis in yeast |
Physiology and pathology... (Programmed death of the cell and ...) |
| P2.6.14 |
Kondrashova |
M. |
Responses of mitochondrion in immobilized lymphocyte |
Physiology and pathology... (Dynamics of mitochondrial morphology) |
| P1.4.4 |
Kopustinskiene |
Dalia |
Molecular Modeling Insight into the K(ATP) Channel Openers-Mitochondrial Adenine Nucleotide Translocase Interaction |
Molecular bioenergetics (Energy-consuming porters) |
| P2.1.16 |
Korotkov |
Sergey |
Tl+ Effects on Rat Liver Mitochondria were stimulated in the presence of inorganic phosphate |
Physiology and pathology... (Uncoupling) |
| P1.5.6 |
Korovkina |
Nadezhda |
PKC and PMCA in regulation of the Ca2+ efflux in response to glutamate exposure in neurons |
Molecular bioenergetics (Coupling mechanisms) |
| P2.4.9 |
Koszela-Piotrowska |
Izabela |
Ion channels from rat skeletal muscle mitochondria |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P1.1.40 |
Kotlyar |
Alexander |
A novel strong competitive inhibitor of mitochondrial NADH: ubiquinone reductase |
Molecular bioenergetics (Respiratory chain) |
| P1.4.5 |
Kovaleva |
Mariya |
Prooxidant-induced low-conductance channel in mitochondria from the Yarrowia lipolytica yeast |
Molecular bioenergetics (Energy-consuming porters) |
| P2.2.26 |
Kozlov |
Andrey |
Application of hydroxylamine-based spin probes to detect mitochondrial reactive oxygen species in tissues and mitochondrial suspension |
Physiology and pathology... (Reactive oxygen species) |
| P1.2.16 |
Kozlova |
Maria |
Proton transfer coupled to the ubiquinone reduction in the reaction center of Blastochloris viridis |
Molecular bioenergetics (Light-driven energy transducers) |
| P1.3.16 |
Kramarova |
Tatiana |
Overexpression of subunit c of the ATP synthase increases total ATP synthase amount and activity in brown-fat mitochondria |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.2.17 |
Krammer |
Eva-Maria |
The binding behavior of coenzyme Q to the photosynthetic reaction center |
Molecular bioenergetics (Light-driven energy transducers) |
| P.3.3 |
Krasnovsky |
Alexander |
Activation of molecular oxygen by infrared laser radiation in pigment-free aerobic systems |
Miscellaneous |
| P2.2.20 |
Kudin |
Alexey |
Quantification of mitochondrial generation of reactive oxygen species in brain tissue |
Physiology and pathology... (Reactive oxygen species) |
| P2.4.10 |
Kunz |
Wolfram |
Recombination of mitochondrial DNA in a double heteroplasmic family |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P1.4.6 |
Kuwabara |
Naoyuki |
Topology of residues and conformational change required for the pH dependent antiport activity for H. pylori NhaA |
Molecular bioenergetics (Energy-consuming porters) |
| P2.2.21 |
Kuznetsov |
Andrey |
ROS and mitochondrial Ca2+ are critical targets for survival signaling by C-Raf |
Physiology and pathology... (Reactive oxygen species) |
| P1.1.41 |
Kuznetsova |
Sofya |
Cytochrome c oxidase inhibition by zinc ions |
Molecular bioenergetics (Respiratory chain) |
| P2.6.12 |
Landes |
Thomas |
Effects of OPA1 mutations on mitochondrial morphology and apoptosis: relevance to adoa pathogenesis |
Physiology and pathology... (Dynamics of mitochondrial morphology) |
| P2.3.2 |
Leeuwenburgh |
Christiaan |
Central Role for Mitochondrial Mediated Apoptosos with Age |
Physiology and pathology... (Aging) |
| P1.1.42 |
Leiding |
Thom |
Complex I in Color - spectroscopic characterization of micro-cytochrome c fusion proteins |
Molecular bioenergetics (Respiratory chain) |
| P1.1.43 |
Lemieux |
Helene |
Temperature effects on the control and capacity of mitochondrial respiration in permeabilized fibers of the mouse heart |
Molecular bioenergetics (Respiratory chain) |
| P2.6.7 |
Liesa |
Marc |
Mitochondrial fusion and fission in myogenic differentiation |
Physiology and pathology... (Dynamics of mitochondrial morphology) |
| P2.5.12 |
Lin |
Tong-Jun |
Pseudomonas aeruginosa-induced human mast cell apoptosis involves mitochondrial-dependent and caspase 8 pathways |
Physiology and pathology... (Programmed death of the cell and ...) |
| P1.3.2 |
Lippe |
Giovanna |
Functional role of subunit e of F(0)F(1) ATP synthase in bovine heart mitochondria |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.5.7 |
Liu |
Shusen |
Non-ohmic Dependence of ROS Generation and Its Cycling Across Mitochondrial Membranes May Have a Regulatory Role in Balancing Between Energy Transduction and Cellular Redox Signalling |
Molecular bioenergetics (Coupling mechanisms) |
| P2.3.5 |
Llado |
Isabel |
Age-related differences on serum paraoxonase activity in male and female rats |
Physiology and pathology... (Aging) |
| P2.1.17 |
Lombardi |
Assunta |
UCP3 activation: mutual relationship between superoxides and polyunsaturated fatty acids |
Physiology and pathology... (Uncoupling) |
| P2.1.18 |
Lou |
Phing How |
Butylated hydroxytoluene - a useful model for safer uncouplers in obesity treatments? |
Physiology and pathology... (Uncoupling) |
| P2.6.8 |
Lyamzaev |
Konstantin |
Selective elimination of mitochondria in hela cells during treatment with mitochondrial inhibitors |
Physiology and pathology... (Dynamics of mitochondrial morphology) |
| P1.1.45 |
Lykova |
Natalya |
Bioenergetic evaluation of environmental factors in the rapid ecological crop trial |
Molecular bioenergetics (Respiratory chain) |
| P1.1.46 |
Madej |
M. Gregor |
The ’E-Pathway Hypothesis’ of Transmembrane Electron Transfer Assisted by Transmembrane Proton Transfer in Dihaem-Containing Quinol:Fumarate Reductases |
Molecular bioenergetics (Respiratory chain) |
| P2.7.3 |
Maevsky |
Evgeny |
Signal, sympathetic action of succinate in experimental and clinical studies |
Physiology and pathology... (Therapeutic approach) |
| P1.3.17 |
Malyan |
Alexander |
Nucleotide binding properties of noncatalytic sites of thiol-modulated chloroplast ATP synthase |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.4.7 |
Mamaev |
Dmitriy |
Inhibitory analysis of the rat liver mitochondrial dicarboxylate transporter by means of lipophilic derivatives of its substrates |
Molecular bioenergetics (Energy-consuming porters) |
| P1.1.75 |
Mamedov |
Mahir |
Electrogenicity due to quinone-iron complex turnover |
Molecular bioenergetics (Respiratory chain) |
| P1.1.47 |
Marques |
Isabel |
The role of the 11.5 kDa subunit of mitochondrial complex I in enzyme activity |
Molecular bioenergetics (Respiratory chain) |
| P1.1.48 |
Marshall |
Douglas |
ATR-FTIR redox difference spectroscopy of Yarrowia lipolytica and bovine complex I |
Molecular bioenergetics (Respiratory chain) |
| P1.5.8 |
Martinou |
J.-C. |
Physiological role of mitochondrial fission and fusion |
Molecular bioenergetics (Coupling mechanisms) |
| P2.6.9 |
Martins De Brito |
Olga |
Mitofusin-2, mutated in Charcot-Marie-Tooth type IIa, links endoplasmic reticulum to mitochondria |
Physiology and pathology... (Dynamics of mitochondrial morphology) |
| P2.4.11 |
Marusich |
Michael |
Reduced levels of Frataxin in Friedreich’s Ataxia can be measured quickly and accurately with a simple dipstick immunoassay |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P.3.4 |
Marusich |
Michael |
Quantitative analysis of mitochondrial protein levels, post-translational modifications and enzyme activities with rapid immunoassays suitable for basic research, pharmaceutical drug safety screening and diagnosis of mitochondrial disease |
Miscellaneous |
| P2.2.23 |
Mathe |
Christelle |
Horseradish peroxidase and Myoglobin active site studies by ATR-FTIR Spectroscopy |
Physiology and pathology... (Reactive oxygen species) |
| P1.1.49 |
Mathy |
Gregory |
The Saccharomyces cerevisiae mitoproteome plasticity in response to recombinant alternative ubiquinol oxidase |
Molecular bioenergetics (Respiratory chain) |
| P2.7.4 |
Matsuno-Yagi |
Akemi |
The single subunit NADH dehydrogenase reduces generation of reactive oxygen species from complex I |
Physiology and pathology... (Therapeutic approach) |
| P2.4.12 |
Matteucci |
Elena |
Erythrocyte membrane electron transfer, diet and lifestyle in healthy and in type 1 diabetic families |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P2.4.13 |
Maximo |
Valdemar |
Mitochondrial DNA (mtDNA) mutations in Helicobacter pylori chronic gastritis and gastric carcinoma |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P1.2.15 |
Medvedev |
Emile |
Protein dynamics control of electron transfer in reaction centers from Rps. viridis |
Molecular bioenergetics (Light-driven energy transducers) |
| P1.1.50 |
Melo |
Ana |
The NHAD antiporter from the nqoB operon of Rhodothermus marinus complex I |
Molecular bioenergetics (Respiratory chain) |
| P1.3.18 |
Mitome |
Noriyo |
Essential Arg of subunit a in F(0)F(1)-ATP synthase plays a key role in c-ring rotation by preventing the futile proton shortcut |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P2.3.3 |
Mitteldorf |
J. |
How Evolutionary Thinking Affects our Ideas about Ageing Interventions |
Physiology and pathology... (Aging) |
| P1.1.51 |
Mogi |
Tatsushi |
Probing the ubiquinol-binding site in cytochrome bd by site-directed mutagenesis |
Molecular bioenergetics (Respiratory chain) |
| P2.1.20 |
Mokhova |
Elena |
Starving Tetrahymena pyriformis responds to sound frequency irradiation of cells and mitochondria |
Physiology and pathology... (Uncoupling) |
| P1.1.52 |
Moparthi |
Vamsi Krishna |
The smallest functional unit of Complex I is composed of 11 protein subunits |
Molecular bioenergetics (Respiratory chain) |
| P.3.5. |
Moreno |
Antonio |
Hepatic mitochondria from nimesulide-treated animals have unchanged oxidative phosphorylation and permeability transition: relevance for nimesulide hepatotoxicity |
Miscellaneous |
| P2.6.10 |
Murugova |
Tatiana |
Detection of new type of membrane structure in mitochondria under low-amplitude swelling by small angle neutron scattering |
Physiology and pathology... (Dynamics of mitochondrial morphology) |
| P2.2.24 |
Musatov |
Andrej |
Ferricytochrome c Protects Cytochrome c Oxidase Against Structural and Functional Damage Induced by Hydrogen Peroxide |
Physiology and pathology... (Reactive oxygen species) |
| P2.2.32 |
Nedergaard |
Jan |
Uncoupling proteins: do ROS or ROS products activate - and do the uncoupling proteins protect against oxidative damage? |
Physiology and pathology... (Reactive oxygen species) |
| P2.6.11 |
Nepryakhina |
Olga |
Intramitochondrial reactive oxygen species are important for dynamics of mitochondrial reticulum in living cells |
Physiology and pathology... (Dynamics of mitochondrial morphology) |
| P1.5.10 |
Nevo |
Yaniv |
Site-directed mutagenesis of the metal-ion transporter DCT1 |
Molecular bioenergetics (Coupling mechanisms) |
| P1.1.54 |
Nohl |
Hans |
OH radical formation from the lysosomal electron carriers |
Molecular bioenergetics (Respiratory chain) |
| P2.5.14 |
Nowikovsky |
Karin |
Mitochondrial K+/H+ exchanger in Mitophagy and Apoptosis |
Physiology and pathology... (Programmed death of the cell and ...) |
| P1.1.55 |
Obiozo |
Mirian |
Why is proton-translocating transhydrogenase a dimer? |
Molecular bioenergetics (Respiratory chain) |
| P2.1.21 |
Opanasenko |
Vera |
The amine-induced proton outflow through the complex of photosystem ii of chloroplasts |
Physiology and pathology... (Uncoupling) |
| P2.1.29 |
Palmeira |
Carlos |
Decreased ANT content in Zucker fatty rats: relevance for altered hepatic mitochondrial bioenergetics in steatosis |
Physiology and pathology... (Uncoupling) |
| P2.5.15 |
Pardo |
Julian |
Mitochondria mediate host and pathogen induced apoptosis |
Physiology and pathology... (Programmed death of the cell and ...) |
| P2.1.22 |
Parker |
Nadeene |
Specificity of GDP Inhibition of Proton Conductance in Energised Mitochondria |
Physiology and pathology... (Uncoupling) |
| P2.2.25 |
Pashkovskaya |
Alina |
Mitochondria-targeted antioxidant mitoq protects gramicidin channels from photodynamic inactivation in planar phospholipid bilayers |
Physiology and pathology... (Reactive oxygen species) |
| P2.5.16 |
Pavlovskaya |
Natalya |
Cyclosporin A-sensitive swelling of winter wheat mitochondria in the presence of Ca2+ ions and fatty acids |
Physiology and pathology... (Programmed death of the cell and ...) |
| P1.5.11 |
Pedersen |
Anders |
Structure determination of a transient complex by NMR using paramagnetic distance restraints - the complex of the soluble domains of Escherichia coli transhydrogenase |
Molecular bioenergetics (Coupling mechanisms) |
| P2.2.11 |
Peixoto |
Francisco |
Oxidative stress enzymes and mitochondrial bioenergetics in wild Liza saliens exposed to heavy metals |
Physiology and pathology... (Reactive oxygen species) |
| P1.1.56 |
Peng |
Guohong |
Structural membrane proteomics on bioenergetically relevant protein complexes from the hyperthermophilic eubacterium Aquifex aeolicus |
Molecular bioenergetics (Respiratory chain) |
| P2.5.17 |
Petit |
Patrice |
Cloning of the human cardiolipin synthase and effects of its knowkdown on cell death progression : a switch between apoptosis and necrosis |
Physiology and pathology... (Programmed death of the cell and ...) |
| P2.5.18 |
Pinelis |
Vsevolod |
On the origin of glutamate-induced neuronal Cà2+ overload and mitochondrial depolarization |
Physiology and pathology... (Programmed death of the cell and ...) |
| P2.4.14 |
Plotnikov |
Egor |
Mitochondrial role in oxidative stress under ischemia/reperfusion in the rat kidney |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P1.1.57 |
Ponomarenko |
Sophia |
ATP synthase as a system for molecular folding of recombinant proteins |
Molecular bioenergetics (Respiratory chain) |
| P1.1.58 |
Popov |
Vasily |
Pathways of noncoupled and uncoupled respiration in plant mitochondria |
Molecular bioenergetics (Respiratory chain) |
| P2.2.27 |
Popova |
Ekaterina |
MitoQ induced miofibroblast differentiation of human fibroblasts |
Physiology and pathology... (Reactive oxygen species) |
| P2.1.6 |
Porter |
Richard |
The effects of acute and endurance exercise on UCP 3 protein expression in mouse gastrocnemius, plantaris, soleus and EDL muscles |
Physiology and pathology... (Uncoupling) |
| P2.1.23 |
Prikhodko |
Elena |
Fatty Acid-induced uncoupling in starving cells of Tetrahymena pyriformis |
Physiology and pathology... (Uncoupling) |
| P1.3.21 |
Rebecchi |
Alberto |
Effect of the gammaM23-K mutation on ATP synthase activation by the protonmotive force and on coupling ATP hydrolysis to proton translocation |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.1.60 |
Reimann |
Joachim |
Proton transfer pathways in nitric oxide reductase (NOR) and cbb3-type oxidases |
Molecular bioenergetics (Respiratory chain) |
| P2.2.28 |
Reiser |
Georg |
Mechanism of toxicity of the branched-chain fatty acid phytanic acid, a marker of Refsum disease, in brain cells involves mitochondrial depolarisation and generation of reactive oxygen species (ROS), with ROS production in brain mitochondria by rotenone-like action |
Physiology and pathology... (Reactive oxygen species) |
| P2.2.29 |
Rey |
Benjamin |
Role of avian uncoupling protein in preventing reactive oxygen species production of skeletal muscle mitochondria |
Physiology and pathology... (Reactive oxygen species) |
| P2.1.31 |
Ricchelli |
Fernanda |
Species-specific stimulation of the mitochondrial permeability transition by norbormide and its derivatives |
Physiology and pathology... (Uncoupling) |
| P1.1.61 |
Robinson |
Neal |
Differential Stability of Dimeric and Monomeric Cytochrome c Oxidase Exposed to Elevated Hydrostatic Pressure |
Molecular bioenergetics (Respiratory chain) |
| P2.1.24 |
Romestaing |
Caroline |
Mitochondrial adaptations to choline-methionine deficient diet, a model of Non Alcoholic SteatoHepatitis |
Physiology and pathology... (Uncoupling) |
| P1.1.62 |
Rudenko |
Jacob |
Changes in the respiratory chain activity of mitochondria of frog olfactory epithelium under an exposure to odorants |
Molecular bioenergetics (Respiratory chain) |
| P2.1.2 |
Rupprecht |
Anne |
Effect of high membrane potential on the UCP- mediated electric conductance of planar bilayer membrane |
Physiology and pathology... (Uncoupling) |
| P2.4.8 |
Ryabchikov |
Nikolay |
Study in Mechanism of Diazoxide Effects on Ca2+-loaded Rat Heart Mitochondria |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P2.5.19 |
Sadauskaite |
Ausra |
On cellular effects of photosensitized damage by cationic dyes |
Physiology and pathology... (Programmed death of the cell and ...) |
| P1.1.63 |
Sakamoto |
Junshi |
Substrate-binding sites on an extremophile-type (SoxB-type) cytochrome c oxidase studied by site-directed mutagenesis |
Molecular bioenergetics (Respiratory chain) |
| P1.1.73 |
Salviati |
|
Characterization of the 5’ region of human COQ2, a gene causing primary CoQ10 deficiency |
Molecular bioenergetics (Respiratory chain) |
| P2.1.25 |
Samartsev |
Victor |
Oxidative stress induce formation in liver mitochondria of the complex of ADP/ATP and aspartate/glutamate antiporters at fatty acid uncoupling activity |
Physiology and pathology... (Uncoupling) |
| P2.2.18 |
Saraiva |
Ligia |
Escherichia coli YtfE, a novel di-iron protein involved in iron-sulphur biogenesis |
Physiology and pathology... (Reactive oxygen species) |
| P.3.6 |
Sardanelli |
Anna Maria |
cAMP-dependent protein kinase and A-kinase anchor proteins in the inner compartment of mammalian heart mitochondria |
Miscellaneous |
| P2.2.30 |
Sarti |
Paolo |
Cells, mitochondria and nitrosative stress in health and disease |
Physiology and pathology... (Reactive oxygen species) |
| P2.2.31 |
Scacco |
Salvatore |
cAMP regulation of oxygen free radical balance in mammalian cells |
Physiology and pathology... (Reactive oxygen species) |
| P1.1.64 |
Schoenfeld |
Peter |
Does thiocyanate inhibit gastric juice secretion by protonophoric activity? |
Molecular bioenergetics (Respiratory chain) |
| P2.4.15 |
Schroder |
J. Michael |
Mitochondria in peripheral neuropathy: correlation of molecular genetic and fine structural changes |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P1.3.23 |
Seelert |
Holger |
H+-ATP synthase dimers in the chloroplast of Chlamydomonas reinhardtii |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.1.53 |
Serafim |
Teresa Laura |
Toxicity of Carbaryl on Hepatic Mitochondrial Bioenergetics – Selective Inhibition of the Mitochondrial Respiratory Chain |
Molecular bioenergetics (Respiratory chain) |
| P1.2.19 |
Setif |
Pierre |
Reconstituting the electron transfer cascade from photosystem-I to ferredoxin-NADP+-reductase and nitrite reductase: Kinetics, energetics and catalysis |
Molecular bioenergetics (Light-driven energy transducers) |
| P2.1.26 |
Shabalina |
Irina |
On the mechanism of non-shivering thermogenesis: UCP3 or ATP/ADP-antiporter cannot substitute for UCP1 in thermogenesis in mice lacking UCP1 |
Physiology and pathology... (Uncoupling) |
| P2.3.4 |
Shevtsova |
Elena |
Dimebon as mitoprotective and antiaging drug |
Physiology and pathology... (Aging) |
| P2.5.20 |
Shoshan-Barmatz |
Varda |
The voltage-dependent anion channel controls life and death of the cell |
Physiology and pathology... (Programmed death of the cell and ...) |
| P2.4.16 |
Silakka |
Pilvi |
The LHON-associated mutations 4136, 4160 and 4171, affecting the ND1 subunit of complex I, and the conserved region in their vicinity studied in Escherichia coli |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P1.1.66 |
Siletsky |
Sergey |
The intraprotein proton transfer in the D-channel mutants of Rhodobacter sphaeroides cytochrome c oxidase |
Molecular bioenergetics (Respiratory chain) |
| P2.4.17 |
Silva |
Bruno |
Phenolic compounds from Hypericum perforatum protect rat hippocampal neurons from excitotoxic and amyloid-beta toxicity: a role for mitochondria |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P2.1.28 |
Sobko |
Alexander |
Colicin E1 ionic channels and lipid flip-flop |
Physiology and pathology... (Uncoupling) |
| P1.1.67 |
Sone |
Nobuhito |
Na+-pumping ATP synthase composed of Propionigenium Fo and the thermophilic Bacillus F1 |
Molecular bioenergetics (Respiratory chain) |
| P2.7.6 |
Sozanska |
Agnieszka |
Correlation of sperm motility with changes of mitochondrial membrane potential |
Physiology and pathology... (Therapeutic approach) |
| P1.1.69 |
Stepuro |
Ivan |
Interaction of thiamine with hemoprotein oxoferryl forms |
Molecular bioenergetics (Respiratory chain) |
| P1.1.70 |
Stupnikova |
Irina |
Features of pea mitochondria operation depending on cold stress intensity |
Molecular bioenergetics (Respiratory chain) |
| P1.3.24 |
Suzuki |
Toshiharu |
Role of Propionigenium modestum uncI gene in F(0)F(1)-ATP synthase: UncI is a molecular chaperon that assists c11-ring assembly |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.5.12 |
Syrtsova |
Lidia |
Energy coupling in nitrogenase |
Molecular bioenergetics (Coupling mechanisms) |
| P1.1.71 |
Terpugov |
Evgeni |
Vibrational motions in photoactive biomolecules such as all-trans retinal and wild type bacteriorhodopsin: an infrared emission spectroscopic study |
Molecular bioenergetics (Respiratory chain) |
| P1.1.72 |
Tocilescu |
Maja |
Exploring the environment of iron-sulfur clusters in complex I from Yarrowia lipolytica |
Molecular bioenergetics (Respiratory chain) |
| P2.2.33 |
Toime |
Laurence |
Activation of uncoupling protein 3 by endogenous reactive oxygen species |
Physiology and pathology... (Reactive oxygen species) |
| P2.4.18 |
Tonshin |
Anton |
Development of new model for search and study of action mechanism of neuroprotecting compounds |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P1.3.15 |
Trchounian |
Armen |
Proton ATPase in redox sensing by bacteria |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.1.74 |
Tveen Jensen |
Karina |
Intra-domain and inter-domain motions in proton-translocating transhydrogenase |
Molecular bioenergetics (Respiratory chain) |
| P2.4.19 |
Ugalde |
Cristina |
Assembly of the oxidative phosphorilation system in x-linked isolated complex i deficiency |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P1.1.76 |
Venturoli |
Giovanni |
Probing the local structure and dynamics of Fe site in cytochrome c embedded in a dry trehalose matrix: an X-ray absorption spectroscopy study |
Molecular bioenergetics (Respiratory chain) |
| P1.1.77 |
Verissimo |
Andreia |
Characterisation of the redox behaviour of the cbb3 oxygen reductase from Bradyrhizobium japonicum |
Molecular bioenergetics (Respiratory chain) |
| P1.1.78 |
Videira |
Arnaldo |
Characterization of NAD(P)H dehydrogenases of the mitochondrial respiratory chain from Neurospora |
Molecular bioenergetics (Respiratory chain) |
| P1.2.20 |
Vitukhnovskaya |
Liya |
The interaction between photosystem 1 and cytochrome b(6)f complex in hybrid proteoliposomes studied by EPR method |
Molecular bioenergetics (Light-driven energy transducers) |
| P1.5.13 |
Voinova |
Vera |
Some characteristics of functional coupling between nucleoside diphosphate kinase of the outer mitochondrial compartment and oxidative phosphorylation |
Molecular bioenergetics (Coupling mechanisms) |
| P1.1.38 |
Voskoboynikova |
Natalia |
Cytochrome bc complex of Rb. capsulatus: Protons that are liberated upon ubiquinol oxidation stay temporarily trapped in the catalytic pocket |
Molecular bioenergetics (Respiratory chain) |
| P1.1.79 |
Vygodina |
Tatiana |
Effect of calcium on the heme a reduction in mammalian cytochrome c oxidase |
Molecular bioenergetics (Respiratory chain) |
| P2.3.6 |
Vyssokikh |
Mikhail |
Age-dependent character of mitochondria targeted antioxidants (MTA) mediated protective effect on cardiolipin peroxidation and creatine kinase functioning in rat heart mitochondria |
Physiology and pathology... (Aging) |
| P2.1.30 |
Wang |
Chunming |
Effects of starvation on heart mitochondrial proton leak and uncoupling protein expression in canary birds and mice |
Physiology and pathology... (Uncoupling) |
| P2.4.20 |
Wasilewski |
Michal |
N-Arachidonoylethanolamine (anandamide) influences mitochondria in living cells |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P2.2.22 |
Wen |
Li |
Increased SOD2 Expression is Responsible for Anti-oxidation in Muscle Mitochondria during Prolonged Exercise in Rats after Endurance Training |
Physiology and pathology... (Reactive oxygen species) |
| P1.1.80 |
Wenz |
Tina |
The role of conserved residues in the mitochondrial quinol: cytochrome c oxidoreductase for substrate binding, catalysis and proton transfer |
Molecular bioenergetics (Respiratory chain) |
| P1.1.81 |
Whitehead |
Simon |
The use of Zn2+ ions to probe the proton-translocation reactions of transhydrogenase |
Molecular bioenergetics (Respiratory chain) |
| P2.2.35 |
Wieckowski |
Mariusz |
The role of mitochondria in the controlling of calcium channels in the plasma membrane: PAM and MAM as a point of the control machinery |
Physiology and pathology... (Reactive oxygen species) |
| P1.3.25 |
Wittig |
Ilka |
Subcomplexes and supercomplexes of mitochondrial ATP synthase |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.1.82 |
Yano |
Takahiro |
Site-directed mutagenesis study of NADH-ubiquinone oxidoreductase (NDH-1) from Rhodobacter capsulatus: a role of the highly conserved 51Asn-Val-Val-Gly-Ala-Phe56 sequence in Loop 1 of the NuoH (ND1) subunit in [transmembrane electrochemical H+ potential]-dependent electron transfer |
Molecular bioenergetics (Respiratory chain) |
| P1.1.83 |
Yanyushin |
Mikhail |
A new class of bacterial membrane-bound oxidoreductases |
Molecular bioenergetics (Respiratory chain) |
| P1.3.26 |
Yokoyama |
Ken |
Rotation and Structure of Prokaryotic ATPase/synthase |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P2.1.13 |
Yong |
Zhang |
Rapidly Up-regulated Expression of UCP3 and Its Effect on ROS Generation in Muscle Mitochondria during Prolonged Exercise in Rats |
Physiology and pathology... (Uncoupling) |
| P2.2.36 |
Zaobornyj |
Tamara |
Involvement of heart mitochondrial nitric oxide synthase and time course of rat adaptation to high altitude |
Physiology and pathology... (Reactive oxygen species) |
| P2.5.9 |
Zhurkova |
Natalia |
Mitochondrial disoders: diagnosis and clinical spectrum |
Physiology and pathology... (Programmed death of the cell and ...) |
| P1.1.84 |
Zickermann |
Volker |
Functional implications from novel structural features in complex I from Yarrowia lipolytica |
Molecular bioenergetics (Respiratory chain) |
| P1.1.34 |
Zimanyi |
Laszlo |
Intra- and interprotein photoinduced electron transfer in respiratory chain redox proteins |
Molecular bioenergetics (Respiratory chain) |
| P1.4.8 |
Zvyagilskaya |
Renata |
A mPTP-like pore in yeast mitochondria |
Molecular bioenergetics (Energy-consuming porters) |
