| Sortorder |
Family |
First |
Title |
Session |
| P1.1.1 |
Abdrakhmanova |
Albina |
A proteomic study of complex I from the aerobic yeast Yarrowia lipolytica |
Molecular bioenergetics (Respiratory chain) |
| P2.1.1 |
Affourtit |
Charles |
Control of ATP/ADP in pancreatic beta cells: the importance of mitochondrial proton leak |
Physiology and pathology... (Uncoupling) |
| P1.5.1 |
Akopyan |
Karen |
Bacterial membrane proton conductance: effects of growth conditions and osmotic stress |
Molecular bioenergetics (Coupling mechanisms) |
| P.3.1 |
Alcolea |
Maria |
Increase in oxidative phosphorilation system activities is related to mitochondrial differentiation in rat embryo during placentation |
Miscellaneous |
| P1.4.1 |
Aliverdieva |
Dinara |
Endogenous respiration substrates levels in Saccharomyces cerevisiae cells |
Molecular bioenergetics (Energy-consuming porters) |
| P2.1.19 |
Almsherqi |
Zakaria |
Tocopherylquinone Activates Uncoupling Protein in Myocardial Mitochondria: A Potential New Role of Vitamin E as an Antioxidant |
Physiology and pathology... (Uncoupling) |
| P1.2.1 |
Amunts |
Alexey |
The Crystal Structure of Plant Photosystem I – Towards Atomic Resolution |
Molecular bioenergetics (Light-driven energy transducers) |
| P2.2.1 |
Andrukhiv |
Anastasia |
On the mechanism by which opening the mitochondrial ATP-dependent K+ channel increases mitochondrial production of reactive oxygen species |
Physiology and pathology... (Reactive oxygen species) |
| P1.5.2 |
Antonenko |
Yury |
Two-dimensional and three-dimensional proton diffusion along the bilayer lipid membrane |
Molecular bioenergetics (Coupling mechanisms) |
| P2.4.1 |
Arnold |
Susanne |
The effect of hypoxia upon the transcription pattern of isoforms of cytochrome c oxidase and oxidative energy production in astrocytes and neurons |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P2.5.1 |
Arokium |
Hubert |
Molecular mechanisms underlying Bax/mitochondria interactions during apoptosis: a study in yeast |
Physiology and pathology... (Programmed death of the cell and ...) |
| P2.5.2 |
Avetisyan |
Armine |
Early changes in mitochondrial physiology during TNF-induced apoptosis of lymphoid U937 cells |
Physiology and pathology... (Programmed death of the cell and ...) |
| P2.1.27 |
Axelsson |
Rebecca |
Regulation of UCP1 activity by fatty acids, fatty acid analogues and nucleotides |
Physiology and pathology... (Uncoupling) |
| P1.1.32 |
Azarkina |
Natalia |
The cyanide binding to cytochrome ba3 is controlled by an intraprotein protonation |
Molecular bioenergetics (Respiratory chain) |
| P2.7.1 |
Bachurin |
Sergey |
Mitochondrial study as the important step in the seaching of neuroprotectors |
Physiology and pathology... (Therapeutic approach) |
| P1.5.3 |
Bagramyan |
Karine |
Coupled formate oxidation and ATP synthesis in fermenting Escherichia coli |
Molecular bioenergetics (Coupling mechanisms) |
| P1.2.2 |
Balashov |
Sergei |
Interaction of the carotenoid antenna with the retinal in xanthorhodopsin: pH dependent transitions and chirality of bound salinixanthin |
Molecular bioenergetics (Light-driven energy transducers) |
| P1.3.20 |
Bald |
Dirk |
ATP synthase-Regulation of a complex machine |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.1.68 |
Bamann |
Christian |
Temperature dependence of electron and proton transfer in cytochrome c oxidases |
Molecular bioenergetics (Respiratory chain) |
| P1.1.4 |
Barquera |
Blanca |
EPR characterization of the flavin radicals in the Na+-pumping NADH: quinone oxidoreductase from Vibrio cholerae |
Molecular bioenergetics (Respiratory chain) |
| P2.4.2 |
Bednarczyk |
Piotr |
Large conductance potassium ion channel from rat brain mitochondria |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P1.1.5 |
Belevich |
Galina |
Site specific mutagenesis of conserved arginine 274 and histidines 224 and 228 in the NuoCD subunit; studies of quinone reductase activity and EPR spectra in isolated Complex I from Escherichia coli |
Molecular bioenergetics (Respiratory chain) |
| P1.1.6 |
Belevich |
Ilya |
The metastable H state is important for proton pumping by cytochrome c oxidase |
Molecular bioenergetics (Respiratory chain) |
| P2.6.1 |
Bellance |
Nadege |
Importance of mitochondrial network organization in the regulation of energy production |
Physiology and pathology... (Dynamics of mitochondrial morphology) |
| P2.1.3 |
Belouze |
Maud |
Original regulation of energy balance in lean Lou/C rats |
Physiology and pathology... (Uncoupling) |
| P2.2.4 |
Belyaeva |
Elena |
The role and mechanisms of mitochondrial dysfunction in necrosis and apoptosis induced by cadmium (II) in AS-30D rat ascites hepatoma cells |
Physiology and pathology... (Reactive oxygen species) |
| P1.1.7 |
Benard |
Giovanni |
Utilization of excess cytochrome c and coenzyme Q for the maintenance of mitochondrial energy production in muscle and liver |
Molecular bioenergetics (Respiratory chain) |
| P2.6.2 |
Beraud |
Nathalie |
Comparative bioeneregetics of isolated cardiomyocytes and HL-1 cells: Mitochondrial dynamics, respiration regulation and creatine kinase expression |
Physiology and pathology... (Dynamics of mitochondrial morphology) |
| P2.2.2 |
Bizouarn |
Tania |
Study of the assembly of the bovine NADPH oxidase |
Physiology and pathology... (Reactive oxygen species) |
| P2.2.5 |
Blier |
Pierre |
Does the fatty acid composition affect metabolic functions and oxidative stress status in rat heart mitochondria? |
Physiology and pathology... (Reactive oxygen species) |
| P1.3.8 |
Boersch |
Michael |
Proton-driven c subunit rotation within the Fo motor of a single ATP synthase |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.1.8 |
Bogachev |
Alexander |
Thermodynamic properties of the redox centers of Na+-translocating NADH: quinone oxidoreductase |
Molecular bioenergetics (Respiratory chain) |
| P2.5.3 |
Bolshakov |
Alex |
Mechanism of a glutamate-indduced mitochondrial depolarization in cultured cortical neurons |
Physiology and pathology... (Programmed death of the cell and ...) |
| P2.1.4 |
Borovskii |
Gennadii |
Alternative oxidase and uncoupling protein expression in maize and wheat seedlings under varied stresses |
Physiology and pathology... (Uncoupling) |
| P2.2.6 |
Borutaite |
Vilmante |
S-nitrosothiols induce inhibition of complex I and ROS production by mitochondria |
Physiology and pathology... (Reactive oxygen species) |
| P2.2.7 |
Boveris |
Alberto |
Oxygen delivery to the tissues and mitochondrial respiration |
Physiology and pathology... (Reactive oxygen species) |
| P2.1.5 |
Brailovskaya |
Irina |
Distinctions between stimulation by cytochrome c of ascorbate (with TMPD) oxidation or NADH oxidation via external pathway in liver mitochondria in sucrose hypotonic media |
Physiology and pathology... (Uncoupling) |
| P1.1.10 |
Brasseur |
Gael |
Expression and characterisation of different quinol and cytochrome oxidases in the acidophilic chemolititrophic bacterium Acidithiobacillus ferrooxidans |
Molecular bioenergetics (Respiratory chain) |
| P1.1.44 |
Butler |
Clive |
The bioenergetics of selenate respiration in Thauera selenatis |
Molecular bioenergetics (Respiratory chain) |
| P1.1.2 |
Cadenas |
Susana |
Inhibition of cytochrome c oxidase by nitric oxide in intact cells under normoxia and hypoxia |
Molecular bioenergetics (Respiratory chain) |
| P1.1.11 |
Capitanio |
Nazzareno |
Membrane potential-dependence of the metabolic flux control exerted by cytochrome c oxidase on the cellular respiration relies on assembly/disassembly of OXPHOS supercomplexes: possible role of cardiolipin |
Molecular bioenergetics (Respiratory chain) |
| P1.2.3 |
Carmeli |
Chanoch |
The Structure of Ligand-Modified Iron-Sulfur Cluster FX in Photosystem I as Determined by EXAFS |
Molecular bioenergetics (Light-driven energy transducers) |
| P1.1.12 |
Carneiro |
Patricia |
Characterization of P76, an external alternative NAD(P)H dehydrogenase from neurospora crassa |
Molecular bioenergetics (Respiratory chain) |
| P2.6.3. |
Cereghetti-De Marchi |
Grazia |
The cytosolic phosphatase calcineurin (pp2b) regulates drp-1 dependent mitochondrial fission |
Physiology and pathology... (Dynamics of mitochondrial morphology) |
| P1.2.4 |
Cheap |
Helene |
Electron and proton transfer events in bacterial reaction centers : investigation of the role of the iron ligands |
Molecular bioenergetics (Light-driven energy transducers) |
| P1.1.59 |
Cherepanov |
Dmitry |
Calculation of midpoint redox potentials of cofactors in photosystem I and ferredoxins |
Molecular bioenergetics (Respiratory chain) |
| P2.2.8 |
Chevtzoff |
Cyrille |
Involvement of Reactive Oxygen Species and Ras/ cAMP patway in the regulation of mitochondrial biogenesis |
Physiology and pathology... (Reactive oxygen species) |
| P2.6.4 |
Cipolat |
Sara |
Mitochondrial rhomboid PARL regulates cytochrome c release during apoptosis via OPA1 dependent cristae remodeling |
Physiology and pathology... (Dynamics of mitochondrial morphology) |
| P1.3.3 |
Corvest |
Vincent |
A bind-lock mechanism for the inhibitory peptide of mitochondrial atp synthase |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.1.3 |
Dachary-Prigent |
Jeanne |
Identification of tyrosine-phosphorylated proteins of the mitochondrial oxidative phosphorylation machinery |
Molecular bioenergetics (Respiratory chain) |
| P1.3.4 |
D'Alessandro |
Manuela |
Intrinsic uncoupling in the ATP synthase of E.coli |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P2.7.2 |
Dassa |
Emmanuel |
Alternative oxidase, a potential therapy for mitochondrial diseases |
Physiology and pathology... (Therapeutic approach) |
| P2.1.7 |
Dedukhova |
Vera |
Suppression by dibucain and by cyclosporin A of inner mitochondrial membrane pore opening in liver mitochondria by acidification of high phosphate incubation medium |
Physiology and pathology... (Uncoupling) |
| P1.1.65 |
Dencher |
Norbert |
3D-Architecture of the respiratory chain supercomplex I(1)III(2)IV(1) from bovine heart mitochondria |
Molecular bioenergetics (Respiratory chain) |
| P1.2.5 |
Dezi |
Manuela |
Kinetics of charge recombination and distribution of the ubiquinone pool in reaction center – light harvesting complexes purified from Rhodobacter sphaeroides |
Molecular bioenergetics (Light-driven energy transducers) |
| P2.2.9 |
Dlaskova |
Andrea |
Confocal microscopy application in monitoring of mitochondrial reactive oxygen species production within selected cell cultures |
Physiology and pathology... (Reactive oxygen species) |
| P1.3.5 |
Dmitriev |
Oleg |
A Model Structure of the Proton Channel of the E.coli ATP Synthase |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.1.13 |
Dobrynin |
Krzysztof |
Investigation of two accessory subunits of complex I from Yarrowia lipolytica |
Molecular bioenergetics (Respiratory chain) |
| P1.1.14 |
Dowhan |
William |
Role of Cardiolipin and Phosphatidylglycerol in the Synthesis and Assembly of Mitochondrial Protein Complexes |
Molecular bioenergetics (Respiratory chain) |
| P1.3.6 |
Drory |
Omri |
Crystal structure of yeast V-ATPase subunit C reveals its stator function |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.1.15 |
Duarte |
Margarida |
Neurospora crassa mutants as models to study complex i disease-associated mutations |
Molecular bioenergetics (Respiratory chain) |
| P1.3.7 |
Dudkina |
Natalya |
Structure of dimeric ATP synthase from mitochondria |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P2.1.8 |
Dutseva |
Elena |
Ion channels formed by mini-gramicidin in planar bilayer phospholipid membranes: sensitized photoinactivation versus single-channel analysis |
Physiology and pathology... (Uncoupling) |
| P1.5.9 |
Dutton |
P. Leslie |
Advances and opportunities in Angstrom level electron tunneling simulations of natural photosynthetic and respiratory systems and de novo designed catalytic and energy converting proteins |
Molecular bioenergetics (Coupling mechanisms) |
| P2.2.10 |
Duvigneau |
Johanna |
Time course of inflammation markers and mitochondrial function in liver from rats subjected to endotoxic shock |
Physiology and pathology... (Reactive oxygen species) |
| P2.5.4 |
Dymkowska |
Dorota |
Involvement of reactive oxygen species in the mitochondrial pathway of arachidonic acid-induced apoptosis |
Physiology and pathology... (Programmed death of the cell and ...) |
| P2.5.5 |
Dzubinskaya |
Elena |
Effect of protein synthesis inhibitors on the course of programmed cell death in pea guard cells |
Physiology and pathology... (Programmed death of the cell and ...) |
| P1.1.16 |
Eek |
Maria |
Complex I in Color - construction of micro-cytochrome c fusion proteins |
Molecular bioenergetics (Respiratory chain) |
| P1.2.6 |
Elanskaya |
Irina |
Role of NAD(P)H:quinone oxidoreductase encoded by drgA gene in regulation of light-induced electron transport through Photosystem I in cyanobacterium Synechocystis 6803 |
Molecular bioenergetics (Light-driven energy transducers) |
| P2.5.6 |
Eliseev |
Roman |
The role of cyclophilin D in the resistance of brain mitochondria to induction of the mitochondrial permeability transition |
Physiology and pathology... (Programmed death of the cell and ...) |
| P2.5.7 |
Emelyanova |
Larisa |
Suppression of liver energy metabolism as an attribute of lampreys (lampetra fluviatilis) during prespawning migration |
Physiology and pathology... (Programmed death of the cell and ...) |
| P1.1.17 |
Euro |
Liliya |
Conformational changes of catalytic importance in isolated Complex I from Escherichia coli caused upon activation by phospholipids |
Molecular bioenergetics (Respiratory chain) |
| P1.1.18 |
Fadeeva |
Maria |
Expression regulation of the nqr-operons in Vibrio harveyi and Klebsiella pneumoniae |
Molecular bioenergetics (Respiratory chain) |
| P1.3.9 |
Feniouk |
Boris |
Regulation of F(0)F(1) ATP synthase: subunit epsilon C-terminal domain is involved in inhibition by ADP and in activation by protonmotive force |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P2.4.3 |
Fernandez Moreira |
Daniel |
X-linked isolated complex i deficiency |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P2.2.12 |
Fernstrom |
Maria |
Skeletal muscle mitochondrial function and ROS production in response to extreme endurance exercise in athletes |
Physiology and pathology... (Reactive oxygen species) |
| P1.1.19 |
Flock |
Ulrika |
Proton transfer in the Paracoccus denitrificans nitric oxide reductase |
Molecular bioenergetics (Respiratory chain) |
| P1.1.20 |
Francia |
Francesco |
The local structure of Zn binding sites in the bovine cytochrome c oxidase: an X-ray absorption spectroscopy study |
Molecular bioenergetics (Respiratory chain) |
| P1.3.10 |
Frasch |
Wayne |
Microsecond Time Scale Rotation Measurements of Single F(1) ATPase Molecules |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.1.21 |
Frezza |
Christian |
OPA1 Controls Mitochondrial Cristae Remodelling Independently from Mitochondrial Fusion During Apoptosis |
Molecular bioenergetics (Respiratory chain) |
| P.3.2 |
Friedrich |
Thorsten |
Substrate crosstalk in E. coli complex I mediated by long-range conformational changes |
Miscellaneous |
| P2.1.9 |
Fromme |
Tobias |
A single base exchange leads to tissue specific ablation of Ucp3 expression |
Physiology and pathology... (Uncoupling) |
| P2.6.5 |
Froschauer |
Elisabeth |
Electroneutral K+/H+ exchange in mitochondrial membrane vesicles involves Mkh1/Letm1 proteins |
Physiology and pathology... (Dynamics of mitochondrial morphology) |
| P1.3.19 |
Futai |
Masamitsu |
Stochastic high-speed rotation of Escherichia coli ATP synthase F(1) sector and its mutations in the ATP-binding region |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.2.7 |
Gabrielyan |
Lilit |
Molecular hydrogen production by Rhodobacter spheroides: phenomenon, redox potential and proton-coupled processes |
Molecular bioenergetics (Light-driven energy transducers) |
| P1.1.22 |
Galkin |
Alexander |
Interaction of diphenyleneiodonium with complex I in bovine submitochondrial particles |
Molecular bioenergetics (Respiratory chain) |
| P1.3.11 |
Galkin |
Mikhail |
The E. coli F(1)F(0)-ATPase: effect of different reconstitution and assay procedures on atp synthesis activity |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P1.3.12 |
Galvez |
Eva |
Quantum dots as energy donors for fluorescence resonance energy transfer in a single membrane bound H+-ATPsynthase |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P2.7.5 |
Gambalunga |
Alberto |
The mitochondrial effects of small organic ligands of BCL-2 at the BH3 domain. Sensitization of BCL-2 overexpressing cells to apoptosis without mitochondrial toxicity by a pyrimidine-2,4,6-trione derivative |
Physiology and pathology... (Therapeutic approach) |
| P2.4.4 |
Gellerich |
Frank |
Energetic depression due to Ca2+ inducible mitochondrial dysfunction contributes to Huntinton´s disease in striatum, other brain regions and skeletal muscle of transgenic HD rats and mice |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P1.1.24 |
Giachini |
Lisa |
X-ray absorption studies of Zn2+ binding sites in bacterial, avian and bovine cytochrome bc1 complexes |
Molecular bioenergetics (Respiratory chain) |
| P2.2.13 |
Gianotti |
Magdalena |
Sex-dependent control of oxidative homeostasis of rat brain mitochondria |
Physiology and pathology... (Reactive oxygen species) |
| P1.1.9 |
Giuffre |
Alessandro |
Nitric Oxide and the CuB-lacking Bacterial Terminal Oxidase Cytochrome bd |
Molecular bioenergetics (Respiratory chain) |
| P2.4.5 |
Glab |
Marta |
Identification of the large conductance Ca2+-activated potassium channel in rat brain mitochondria |
Physiology and pathology... (Cancer, ischemia and degenerative disorders) |
| P1.1.23 |
Gnaiger |
Erich |
High excess capacity of cytochrome c oxidase in permeabilized fibers of the mouse heart |
Molecular bioenergetics (Respiratory chain) |
| P2.2.14 |
Godinot |
Catherine |
Role of hypoxia inducible factor and reactive oxygen species in oxidative phosphorylation down-regulation of renal cancer cells |
Physiology and pathology... (Reactive oxygen species) |
| P2.5.8 |
Gogvadze |
Vladimir |
Multiple mechanisms of cytochrome c release in arsenic-induced cells death |
Physiology and pathology... (Programmed death of the cell and ...) |
| P1.2.8 |
Gomes-Laranjo |
José |
Assessment to the high temperature effect on chestnut seedlings growth |
Molecular bioenergetics (Light-driven energy transducers) |
| P1.2.9 |
Gopta |
Oksana |
Analysis of charge recombination kinetics in cyanobacterial Photosystem I with site-specific substitutions in the vicinity of the phylloquinone molecules |
Molecular bioenergetics (Light-driven energy transducers) |
| P1.1.25 |
Gorbikova |
Elena |
Redox Properties of Cytochrome c Oxidase Resolved by FTIR Spectroscopy |
Molecular bioenergetics (Respiratory chain) |
| P2.1.10 |
Grabelnych |
Olga |
The role of fatty acids in oxidative phosphorylation uncoupling of winter wheat mitochondria and the participation of ADP/ATP-antiporter and the plant uncoupling mitochondrial protein (PUMP) in this process |
Physiology and pathology... (Uncoupling) |
| P1.3.22 |
Grueber |
Gerhard |
Structural analysis of the coupling subunit F of the archaeal A(1)A(0) ATPsynthase from Methanosarcina mazei GO1 in solution |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P2.2.34 |
Guevara |
Rocio |
Caloric restriction decreases ros production in brown adipose tissue of old rats by uncoupling activity |
Physiology and pathology... (Reactive oxygen species) |
| P1.1.26 |
Gustavsson |
Tobias |
Azidoquinone photo-labeling and detection of the labeled peptides with mass spectrometry |
Molecular bioenergetics (Respiratory chain) |
| P2.6.13 |
Hajnoczky |
Gyorgy |
Mitochondrial conjugation |
Physiology and pathology... (Dynamics of mitochondrial morphology) |
| P1.3.1 |
Haraux |
Francis |
Oligomerization and inhibitory power of the regulatory peptides of Saccharomyces cerevisiae ATP synthase |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P2.5.13 |
Hassinen |
Ilmo |
Bisphosphonate-induced apoptosis of osteoclasts. Role of mitochondrial ADP/ATP translocator |
Physiology and pathology... (Programmed death of the cell and ...) |
| P1.1.36 |
Hellwig |
Petra |
FTIR spectroscopic characterization of the Qo binding site in mitochondrial and bacterial bc1 complex |
Molecular bioenergetics (Respiratory chain) |
| P1.1.27 |
Hinchliffe |
Philip |
Purification, characterisation and crystallisation of the hydrophilic domain of respiratory complex i from thermus thermophilus |
Molecular bioenergetics (Respiratory chain) |
| P2.2.15 |
Hlavata |
Lydie |
Increased oxidative status in RAS2Val19 affects mitochondrial adenine nucleotide translocator function via ROS signaling in S. cerevisiae |
Physiology and pathology... (Reactive oxygen species) |
| P1.1.28 |
Hollis |
Veronica |
Nitric oxide triggers the early reduction of mitochondrial cytochromes in respiring mammalian cells |
Molecular bioenergetics (Respiratory chain) |
| P2.6.6 |
Hoppel |
Charles |
Metabolic State-Related Structure of Isolated Cardiac Mitochondria as seen by High Resolution Scanning Electron Microscopy (HRSEM) |
Physiology and pathology... (Dynamics of mitochondrial morphology) |
| P1.1.29 |
Horecky |
Jaromir |
Effect of transient ischemia on rat brain energy metabolism assessed in vivo by (31) P MRS and in vitro by mitochondrial OXPHOS |
Molecular bioenergetics (Respiratory chain) |
| P2.2.3 |
Hulya |
Bayir |
Phospholipid-mediated scavenging of pro-apoptotic cyt c by alpha synuclein: Role in neuroprotection |
Physiology and pathology... (Reactive oxygen species) |
| P2.1.11 |
Humphrey |
Dickon |
GDP and fatty acid interactions with UCP1 |
Physiology and pathology... (Uncoupling) |
| P1.2.11 |
Husu |
Ivan |
Relations between structure and biological affectivity for Q(B) site inhibitors of bacterial photosynthetic reaction centers |
Molecular bioenergetics (Light-driven energy transducers) |
| P1.3.13 |
Ishizuka |
Morio |
Flagellar mortor from the thermophilic PS3 |
Molecular bioenergetics (ATP-synthase and ATPase) |
| P2.2.16 |
Ivanov |
Boris |
The role of plastoquinone pool in production and scavenging of reactive oxygen species in chloroplast thylakoids |
Physiology and pathology... (Reactive oxygen species) |
| P1.1.30 |
Iwaki |
Masayo |
ATR-FTIR Characterisation of the Pm Intermediate of Paracoccus denitrificans Cytochrome c Oxidase |
Molecular bioenergetics (Respiratory chain) |
| P2.2.17 |
Izyumov |
Denis |
Photodynamic treatment with mitochondrial photosensitizer induces oxidative stress and cell death in HeLa cells |
Physiology and pathology... (Reactive oxygen species) |
| P2.3.1 |
Jarmuszkiewicz |
Wieslawa |
Mitochondrial Functions in Acanthamoeba castellanii aging |
Physiology and pathology... (Aging) |
| P2.1.12 |
Jastroch |
Martin |
Introducing a mammalian cell system to study the function of evolutionary distant uncoupling proteins |
Physiology and pathology... (Uncoupling) |
| P1.4.2 |
Jolkver |
Elena |
Identification and characterization of excretory carriers in C. glutamicum |
Molecular bioenergetics (Energy-consuming porters) |
| P1.1.31 |
Juhaszova |
Magdalena |
Effect of intracellular ca2+ on mpt induction in excitable cells |
Molecular bioenergetics (Respiratory chain) |
