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| '''9<sup>th</sup> MiP''conference'' - MiP2013'''
| | #REDIRECT [[MiPNet18.08_MiP2013]] |
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| [http://www.mitophysiology.org/index.php?mip2013 '''<big>MiP2013: Comparative Mitochondrial Physiology</big>''']
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| Obergurgl, Tyrol, Austria. 2013-Sep-23 to 27
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| === Preliminary titles - max. 124 participants ===
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| ''Work in progress''
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| {| class="wikitable"
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| ! Name !! Institution !! Title !! Status
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| | [[Walker JE|'''Nobel laureate Sir John Walker]]||MRC Mitochondrial Biology Unit, Cambridge, UK|| ''MiP2013 lecture on comparative mitochondrial physiology'' ||Keynote
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| | [[Saltin B|'''Bengt Saltin''']]||Copenhagen Muscle Research Centre, DK||''Kjell Johansen lecture''||Keynote
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| | [[Acuna-Castroviejo D|Darío Acuña-Castroviejo]]||Universidad de Granada, ES|| ||
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| | [[Amoedo ND|Nivea Días Amoedo]]||Federal University of Rio de Janeiro, BR||Comparative biochemistry of tumorigenesis: role of mitochondria||
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| | Odeta Arandarcikaite||Lithuanian University of Health Sciences, Kaunas, LT||The protective effect of NO against ischemia induced brain mitochondrial injury||
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| | Oliver Bandmann||Sheffield Institute for Translational Neuroscience, UK||''TigarB'' causes mitochondrial dysfunction and neuronal loss in PINK1 deficiency||
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| | Adam Beach||Concordia University, Montreal, CA||Lithocholic acid delays aging in yeast and exhibits an anti-tumor effect in human cells by altering mitochondrial composition, structure and function||
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| | [[Blier PU|Pierre Blier]]||Université du Québec à Rimouski, CA||Holding our breath in our modern world: are mitochondria keeping the pace with global changes?||
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| | [[Borutaite V|Vilma Borutaite]]||Kaunas University of Medicine, LT||Mitochondrial response to heart and brain ischemia||
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| | [[Bouillaud F|Frédéric Bouillaud]]||Universite Paris Descartes, Paris, FR||Adaptation of colonocyte mitochondria to intense hydrogen sulfide exposure||''part time''
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| | [[Boushel RC|Robert Boushel]]||University of Copenhagen, Copenhagen, DK||O<sub>2</sub> delivery, diffusion and mitochondrial respiration components of VO<sub>2</sub> during exercise in health and disease||
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| | Tobias Brandt||Max-Planck-Institute of Biophysics, Frankfurt a. M., DE||Structure and function of aged mouse mitochondria||
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| | [[Calzia E|Enrico Calzia]]||Universitätsklinikum Ulm, DE||Studying mitochondrial effects of sulfide. Does the species matter?||
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| | Joao Paulo Cavalcanti-de-Albuquerque||Universidade Federal do Rio de Janeiro, BR||Skeletal muscle mitochondrial function in ovariectomized rats: a time course study and the role of estrogen replacement||
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| | [[Chicco AJ|Adam Chicco]]||Colorado State University, Fort Collins, US|| ||
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| | [[Chinopoulos C|Christos Chinopoulos]]||Semmelweis University, Budapest, HU|| ||
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| | Dillon Chung||University of British Columbia, Vancouver, CA||The effect of low-temperature acclimation on mitochondrial function in the common killifish (Fundulus heteroclitus), a top-down elasticity analysis||
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| | Felix Christen||Université du Québec à Rimouski, CA||Modulation in ROS production in arctic charr heart mitochondria: Is Astaxanthine only good for the pink color?||
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| | [[Persson MF|Malou Friederich-Persson]]||Uppsala University, SE||Potassium controls rat mitochondria function; in vivo and in vitro considerations||
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| | [[Christiansen LB|Liselotte Christiansen]]||University of Copenhagen, DK||Heart and skeletal muscle from diseased and healthy cats||''tentative''
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| | [[Coen P|Paul Coen]]||University of Pittsburgh, US|| ||''tentative''
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| | [[Darveau CA|Charles Darveau]]||University of Ottawa, CA||Diversity and evolution of mitochondrial metabolism: Proline as a metabolic reward for pollinators||
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| | [[Dela F|Flemming Dela]]||University of Copenhagen, DK||Statins affects skeletal muscle mitochondrial respiration|| part-time
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| | [[Dlaskova A|Andrea Dlaskova]]||Academy of Sciences of the Czech Rep., Prague, CZ||Distribution of nucleoids of mitochondrial DNA||
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| | [[Dzialowski_EM|Edward Dzialowski]]||University of North Texas, TX, US||||
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| | [[Eckert G|Gunter Eckert]]||Goethe-University of Frankfurt am Main, DE||Rice bran extract protects from mitochondrial dysfunction in guinea pig brain||
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| | [[Eckert S|Schamim Eckert]]||Goethe-University of Frankfurt am Main, DE|| ||''tentative''
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| | [[Eigentler A|Andrea Eigentler]]||Medical University Innsbruck, AT|| ||
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| | [[Eira da Costa AC|Ana Carina Eira da Costa]]||University of Leicester, UK||''Drosophila Trap1'' protects against mitochondrial dysfunction in a PINK1/parkin model of Parkinson’s disease||
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| | Andrej Fokin||Lithuanian Sports University, Kaunas, LT||H55N polymorphism is associated with impaired respiration in isolated mitochondria from liver and muscles of mice||
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| | [[Galina A|Antonio Galina]]||Federal University of Rio de Janeiro, BR||Effects of antitumor alkylating agent 3-bromopyruvate on energy transducing pathways in hepatoma HepG2, liver mitochondria and SERCA: Is There Any Role for Mitochondrial Hexokinase Activity||
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| | [[Garcia-Roves PM|Pablo Garcia-Roves]]||Institut d'Investigacions Biomediques August Pi Sunyer (IDIBAPS) Hospital Clinic de Barcelona, ES||Mitochondrial respiration in different mouse tissues under patho-physiological states||
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| | [[Gellerich FN|Frank Norbert Gellerich]]||Universitätsklinikum Magdeburg, DE||The mitochondrial gas pedal, a unique property of neurons exists also in heart and skeletal muscle but not in astrocytes. New evidences by in silico investigations and (patho-)physiological consequences||
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| | [[Giulivi C|Cecilia Giulivi]]||University of California, Davis, US||The role of thiamine deficiency across species: from seals to Alaskan huskies||
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| | [[Gizatullina Z|Zemfira Gizatullina]]||Universitätsklinikum Magdeburg, DE||The mitochondrial gas pedal, a unique property of neurons exists also in heart and skeletal muscle but not in astrocytes. New evidences by in silico investigations and (patho-)physiological consequences||
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| | Viviane Glaser||Federal University of Santa Catarina, BR||Methylglyoxal and advanced glycation end products disrupt mitochondrial dynamics and metabolism in c6 astroglioma cells||
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| | [[Glick GD|Gary Glick]]||Lycera Corporation, Ann Arbor, MI, US|| ||
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| | [[Gnaiger E|Erich Gnaiger]]||Medical University Innsbruck, AT||The Mitochondrial Physiology Map - [[MiPMap]]||
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| | Olga Gorbacheva||Institute of Theoretical and Experimental Biophysics RAS, Pushchino, RU||Cyclization of potassium in rat liver mitochondria in the functioning mitochondrial ATP-dependent potassium channel and its possible role in cardioprotection||
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| | [[Gourlay CW|Campbell Gourlay]]||University of Kent, UK|| ||
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| | [[Gram MJ|Martin Gram]]||University of Copenhagen, DK||Mitochondrial respiration and ROS production in response to physical inactivity in young and old men||''tentative''
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| | [[Hansell P|Peter Hansell]]||Uppsala University, SE||||
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| | [[Hand SC|Steven Hand]]||LSU, Baton Rouge, Lousiana, US|| ||
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| | Hassan Hashimi||Academy of Sciences of the Czech Rep., Ceske Budejovice, CZ||Ancestral function of Letm1 as determined in the evolutionary diverged ''Trypanosoma brucei''||
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| | Juliana Heidler||JW-Goethe University, Frankfurt, DE|| Functional plasticity of interfibrillary mitochondria (IFM) as cardiac response mechanism to stress||
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| | Eric Hendricks||Eastern Illinois University, Charleston, US||Bioenergetics of permeabilized and intact nerve cell terminals from ApoE deficient and wild type mice||
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| | [[Hickey AJ|Anthony Hickey]]||University of Auckland, NZ||Mitochondria in a changing climate? The role of mitochondrial in hyperthermic heart failure in different fish species||
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| | [[Holloway GP|Graham Holloway]]||University of Guelph, CA|| ||''tentative''
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| | [[Hoppel CL|Charles Hoppel]]||Cleveland, Ohio, US|| ||
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| | [[Irving BA|Brian Irving]]||Geisinger Health System, Danville, US|| ||''tentative''
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| | [[Jacobs RA|Robert Jacobs]]||University of Zurich, CH||Improvements in exercise performance with high-intensity interval training are facilitated by an increase in skeletal muscle mitochondria content ||[http://www.hypoxianet.com HypoxiaNet]
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| | [[Jezek P|Petr Jezek]]||Academy of Sciences of the Czech Rep., Prague, CZ||Antioxidant synergy of mitochondrial uncoupling protein UCP2 and phospholipase iPLA<sub>2</sub>γ||
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| | [[Keijer J|Jaap Keijer]]||Wageningen University, NL||Three non-invasive methods to measure metabolic health in mice using indirect calorimetry||
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| | [[Koopman WJ|Werner Koopman]]||Radboud University Medical Centre, Nijmegen, NL||Developing novel treatment strategies for mitochondrial disease||
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| | [[Kotwica A|Aleksandra Kotwica]]||University of Cambridge, UK||Mitochondrial respiration in heart and soleus of ob/ob mice||
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| | [[Kozlov A|Andrey Kozlov]]||Ludwig Boltzmann Institute, Vienna, AT||Regulatory role of mitochondrial ROS upon inflammation||
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| | [[Kraunsoee R|Regitze Kraunsoee]]||University of Copenhagen, DK|| ||''tentative''
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| | Bernard Korzeniewski||Jagiellonian University, Krakow, PL||'Regulation of oxidative phosphorylation during work transitions in various tissues results from its kinetic properties||
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| | [[Laner V|Verena Laner]]||OROBOROS INSTRUMENTS, Innsbruck, Austria|| ||''Local organizer''
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| | [[Larsen S|Steen Larsen]]||University of Copenhagen, DK||Skeletal muscle respiration after high intensity training||''tentative''
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| | Filip J Larsen||Karolinska Institut, Stockholm, SE||Human mitochondria has a unique response to ischemia reperfusion injury compared to mitochondria from rat, mouse and pig||
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| | [[Lee HK|Hong Kyu Lee]]||Eulji University College of Medicine, Seoul, KR||Building the mitochondrial medicine; need to define mtDNA variations and its function||
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| | [[Lemieux H|Hélène Lemieux]]||University of Alberta, CA|| ||
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| | [[Lund MT|Michael Lund]]||University of Copenhagen, DK||Respiration in skeletal muscle, subcutaneous adipose tissue, visceral adipose tissue and hepatic tissue from the same patients||''tentative''
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| | [[Lundby C|Carsten Lundby]]||University of Zurich, CH|| ||[http://www.hypoxianet.com HypoxiaNet]
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| | [[Lundby S|Stine Lundby]]||University of Zurich, CH|| ||[http://www.hypoxianet.com HypoxiaNet]
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| | Katherine Lyabakh||Glushkov Institute of Cybernetics National Academy of Sciences, Kiev, UA|| Changes in oxidative power and intracellular redistribution of mitochondria can regulate tissue pO<sub>2</sub> and oxygen consumption rate under circulatory hypoxia.||
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| | [[Mairbaeurl H|Heimo Mairbaeurl]]||University of Heidelberg, DE||Hypoxia prevents increase in mitochondrial activity by metabolic stress of cardiomyocytes||[http://www.hypoxianet.com HypoxiaNet]
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| | Marina Makrecka||Riga Stradins University, Riga,LV|| The accumulation of long chain acyl-carnitines is a major cause of mitochondrial damage during ischemia||
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| | [[Mark FC|Felix Mark]]||Alfred Wegener Institute for Polar and Marine Search, Bremerhaven, DE|| ||
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| | [[Matallo J|Jose Matallo]]||Universitätsklinikum Ulm, DE|| ||
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| | [[Menze MA|Michael Menze]]||Eastern Illinois University, Charleston, US||Group1 LEA protein ameliorates inhibition of mitochondrial respiration in Drosophila melanogaster Kc167 cells and isolated mitochondria||
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| | Dionizio Ramos Mendes Filho||Federal University of Rio de Janeiro, BR||High intensity interval training (HIIT) induces different responses in respiration and H<sub>2</sub>O<sub>2</sub> production induced by different substrates in three types of permeabilized myofibers.||
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| | Daniel Munro||Université du Québec à Rimouski, CA||Mitochondrial membrane of the longest-lived metazoan (''A.islandica'') are lipoxidation-resistant||
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| | [[Oliveira MF|Marcus Oliveira]]||Universidade Federal do Rio de Janeiro, BR|| Comparative mitochondrial physiology in blood feeding insect vectors and parasites||
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| | Rolf Erik Olsen|| Institute of Marine Research Matre, Matredal, NO|| Comparative study of respiartion in Atlantic salmon (''Salmo salar'', L.) cells and mitochondria from blood, heart, liver, muscle and brain||
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| | [[Palm F|Fredrik Palm]]||Uppsala University, SE||Role of mitochondria function for the onset and progression of kidney disease.||
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| | Carl Pinkert||Auburn University, Alabama, US|| Mouse modeling of human mitochondrial disorders||
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| | Priscila Pena Diaz||Czech Academy of Sciences, CZ||||
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| | [[Pichaud N|Nicolas Pichaud]]||Université du Québec à Rimouski, CA||Importance of mitochondrial haplotypes in the expression of metabolic phenotypes under different conditions||
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| | [[Plecita-Hlavata L|Lydie Plecita-Hlavata]]||Academy of Sciences of the Czech Rep., Prague, CZ||Mitochondrial network and cristae remodeling upon hypoxia||
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| | [[Quistorff B| Björn Quistorff]]||University of Copenhagen, SE|| With type 2 diabetes mitochondrial dysfunction develops earlier in liver than in rat skeletal muscle.||
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| | [[Richards JG| Jeff Richards]]||University of British Columbia, CA|| ||
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| | [[Rossignol R|Rodrigue Rossignol]]||Université Victor Segalen-Bordeaux 2, FR|| ||''part time''
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| | [[Scatena R|Roberto Scatena]]||Catholic University, Rome, IT|| ||''tentative''
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| | Vitaly Selivanov||Universitat de Barcelona, ES||Analysis of bifurcation characteristics of the mitochondrial respiratory chain operation and factors determining its specificity for various tissues||
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| | Irina Shabalina||Stockholm University, Stockholm, SE|| Comparative study of brown and white adipose tissue mitochondria in mice upon cold acclimation||
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| | Maria Shigaeva||Insitute of Theoretical and Experimental Biophysics RAS, Pushchino, RU||The role of mitochondrial ATP-dependent potassium channel in the adaptation of organism to stress||
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| | Fedor Severin||Moscow State University, RU||Mitochondrially-encoded protein Var1 promotes loss of respiratory function in Saccharomyces cerevisiae under stressful conditions||
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| | Tomas Schiffer||Karolinska Institute, Stockholm, SE||Dietary Inorganic Nitrate Reduces Basal Metabolic Rate in Man||
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| | [[Skulachev VP|Vladimir Skulachev]]||Moscow State University, RU||SkQ1, the first tool to treat ROS-induced mitochondrial pathologies, which is available in drugstores||
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| | [[Slinde E|Erik Slinde]]||University of Life Science, As, NO|| Comparative study of respiartion in Atlantic salmon (''Salmo salar'', L.) cells and mitochondria from blood, heart, liver, muscle and brain||
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| | [[Smolkova K|Katharina Smolkova]]||Academy of Sciences of the Czech Rep., Prague, CZ||Reverse carboxylation glutaminolysis in breast cancer cells||
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| | Sparks L| Lauren Sparks ||Burnham Institute for Medical Research, Orlando, US|| ||
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| | [[Staples J|James Staples]]||University of Western Ontario, London, CA|| Mechanisms of mitochondrial metabolic depression in hibernation||
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| | [[Stocker R|Roland Stocker]]||Victor Chang Cardiac Research Institute, Sydney, AU|| ||''tentative''
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| | Karolina Subrtova||Biology Centre, ASCR, Ceske Budejovice, CZ|| Hypothetical trypanosoma protein helps to anchor the F<sub>1</sub>-ATPase moiety to the mitochondrial membrane ||
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| | [[Tepp K|Kersti Tepp]]||National Institute of Chemical Physics and Biophysics, Tallin, EE|| Bioenergetic aspects of postnatal development of cardiac cells: formation of structure-function relationship||
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| | [[Treberg JR|Jason Treberg]]||University of Manitoba, Winnipeg, CA|| ||
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| | [[Tretter L|Laszlo Tretter]]||Semmelweis University, Budapest, HU|| ||
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| | Marten Szibor||University of Helsinki, FI|| ||
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| | Patricia Schulte||University of British Columbia, Vancouver, CA||The effect of low-temperature acclimation on mitochondrial function in the common killifish (Fundulus heteroclitus), a top-down elasticity analysis||
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| | Willie van Aardt||Noordwes Universiteit, ZA|| || ''tentative''
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| | [[Vercesi AE|Anibal Vercesi]]||State University of Campinas, BR||Mitochondrial calcium transport in animal, plant and trypanosomes||
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| | Kristine Volska ||Riga Stradins University, Riga, LV|| The inhibitor of L-carnitine biosynthesis protects brain mitochondria against anoxia-reoxygenation.||
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| | [[Votion DM|Dominique Votion]]||University of Liège, BE||The challenge of understanding myopathies in horses using permeabilized and cultured equine muscle cells||
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| | [[Wieckowski MR|Mariusz Wieckowski]]||Nencki Institute of Experimental Biology, Warsaw, PL||Mitochondrial parameters and ROS production can be used to differentiate mitochondrial defects in fibroblasts from patients with mitochondrial defects||
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| | [[Wojtala A|Aleksandra Wojtala]]||Nencki Institute of Experimental Biology, Warsaw, PL||Comparative studies of reactive oxygen species production and the level of antioxidant defense system in the fibroblasts derived from patients with defined mitochondrial disorders||
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| | Lauren Wright||Dipartimento di Scienze Biomediche, Padova, IT||Calcium regulation of metabolism in adipocytes||
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| | [[Zelenka J|Jaroslav Zelenka]]||Academy of Sciences, Prague, CZ||Reverse carboxylation glutaminolysis in breast cancer cells||
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| === Session on high-altitute mitochondrial physiology and hypoxia ===
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| * Supported by [http://www.hypoxianet.com COST project HypoxiaNet] for members of this network.
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| === Pre-conference Workshop ===
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| * [http://www.oroboros.at/?IOC78_Obergurgl OROBOROS Oxygraph-2k Workshop IOC78] - limited to 30 participants (6 O2k)
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| [[Category:Events]]
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