MiP2013: Difference between revisions
From Bioblast
Laner Verena (talk | contribs) No edit summary |
Laner Verena (talk | contribs) No edit summary |
||
Line 155: | Line 155: | ||
|- | |- | ||
| [[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|| | | [[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|| | ||
|- | |- | ||
| [[Muller AP|Alexandre Pastoris Muller]]||Universidade Federal do Rio Grande do Sul, Porto Alegre, BR||Insulin prevents mitochondrial generation of H<sub>2</sub>O<sub>2</sub> in rat brain || | | [[Muller AP|Alexandre Pastoris Muller]]||Universidade Federal do Rio Grande do Sul, Porto Alegre, BR||Insulin prevents mitochondrial generation of H<sub>2</sub>O<sub>2</sub> in rat brain || | ||
Line 184: | Line 182: | ||
| [[Quistorff B| Björn Quistorff]]||University of Copenhagen, SE|| With type 2 diabetes mitochondrial dysfunction develops earlier in liver than in rat skeletal muscle.|| | | [[Quistorff B| Björn Quistorff]]||University of Copenhagen, SE|| With type 2 diabetes mitochondrial dysfunction develops earlier in liver than in rat skeletal muscle.|| | ||
|- | |- | ||
| [[Regueira T|Tomas Regueira]]||Universidad Católica de Chile, Santiago de Chile, CL|| || | | [[Ramos Mendes D|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.|| | [[Regueira T|Tomas Regueira]]||Universidad Católica de Chile, Santiago de Chile, CL|| || | ||
|- | |- | ||
| [[Rodrigues MF|Mariana Rodrigues]]||Federal University of Rio de Janeiro, BR|| || | | [[Rodrigues MF|Mariana Rodrigues]]||Federal University of Rio de Janeiro, BR|| || |
Revision as of 10:16, 24 May 2013
9th MiPconference - MiP2013
MiP2013: Comparative Mitochondrial Physiology
Obergurgl, Tyrol, Austria. 2013-Sep-23 to 27
Preliminary titles - max. 124 participants
Work in progress
Name | Institution | Title | Status | |||
---|---|---|---|---|---|---|
Nobel laureate Sir John Walker | MRC Mitochondrial Biology Unit, Cambridge, UK | MiP2013 lecture on comparative mitochondrial physiology | Keynote | |||
Bengt Saltin | Copenhagen Muscle Research Centre, DK | Kjell Johansen lecture | Keynote | |||
Darío Acuña-Castroviejo | Universidad de Granada, ES | |||||
Nivea Días Amoedo | Federal University of Rio de Janeiro, BR | Comparative biochemistry of tumorigenesis: role of mitochondria | ||||
Odeta Arandarcikaite | Lithuanian University of Health Sciences, Kaunas, LT | The protective effect of NO against ischemia induced brain mitochondrial injury | ||||
Oliver Bandmann | Sheffield Institute for Translational Neuroscience, UK | TigarB causes mitochondrial dysfunction and neuronal loss in PINK1 deficiency | ||||
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 | ||||
Aritri Bir | Education & Research IPGMER, Kolkata, IN | α-Synuclein mediated alterations in mitochondrial oxidative phosphorylation system: implications in the pathogenesis of Parkinson’s disease | ||||
Pierre Blier | Université du Québec à Rimouski, CA | Holding our breath in our modern world: are mitochondria keeping the pace with global changes? | ||||
Vilma Borutaite | Kaunas University of Medicine, LT | Mitochondrial response to heart and brain ischemia | ||||
Frédéric Bouillaud | Universite Paris Descartes, Paris, FR | Adaptation of colonocyte mitochondria to intense hydrogen sulfide exposure | part time | |||
Robert Boushel | University of Copenhagen, Copenhagen, DK | O2 delivery, diffusion and mitochondrial respiration components of VO2 during exercise in health and disease | ||||
Tobias Brandt | Max-Planck-Institute of Biophysics, Frankfurt a. M., DE | Structure and function of aged mouse mitochondria | ||||
Enrico Calzia | Universitätsklinikum Ulm, DE | Studying mitochondrial effects of sulfide. Does the species matter? | ||||
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 | ||||
Adam Chicco | Colorado State University, Fort Collins, US | Comparative muscle mitochondrial physiology of the northern elephant seal
Poster: Remodeling of skeletal muscle mitochondria in rsponse to exercise training in taz shRNA mouse model of human Barth syndrome|| | ||||
Christos Chinopoulos | Semmelweis University, Budapest, HU | |||||
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 | ||||
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? | ||||
Charles Darveau | University of Ottawa, CA | Diversity and evolution of mitochondrial metabolism: Proline as a metabolic reward for pollinators | ||||
Flemming Dela | University of Copenhagen, DK | Statins affects skeletal muscle mitochondrial respiration | part-time | |||
Andrea Dlaskova | Academy of Sciences of the Czech Rep., Prague, CZ | Distribution of nucleoids of mitochondrial DNA | ||||
Peter Dungel | Ludwig Boltzmann Institute, Vienna, AT | Iron-mediated injury of mitochondria is attenuated by nitrite | ||||
Edward Dzialowski | University of North Texas, US | Mitochondria Function and the Development of Endothermy in the Precocial Pekin Duck (Anas pekin) | ||||
Gunter Eckert | Goethe-University of Frankfurt am Main, DE | Rice bran extract protects from mitochondrial dysfunction in the brain | ||||
Schamim Eckert | Goethe-University of Frankfurt am Main, DE | tentative | ||||
Andrea Eigentler | Medical University Innsbruck, AT | |||||
Ana Carina Eira da Costa | University of Leicester, UK | Drosophila Trap1 protects against mitochondrial dysfunction in a PINK1/parkin model of Parkinson’s disease | ||||
Andrej Fokin | Lithuanian Sports University, Kaunas, LT | H55N polymorphism is associated with impaired respiration in isolated mitochondria from liver and muscles of mice | ||||
Malou Friederich-Persson | Uppsala University, SE | Potassium controls rat mitochondria function; in vivo and in vitro considerations | ||||
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 | ||||
Gerardo Garcia-Rives | Medical School, Tec de Monterrey, MX | Regulation of mitochondrial permeability transition by Sirt3-catalyzed cyclophilin D deacetylation and its relevance for ventricular dysfunction in metabolic syndrome | ||||
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 | ||||
Bronislav Gavenauskas | Bogomoletz Institute of Physiology, Kiev, UA | Effect of ATP-dependent potassium uptake on reactive oxygen species production in rat brain mitochondria | ||||
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 | ||||
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 | ||||
Viviane Glaser | Federal University of Santa Catarina, BR | Methylglyoxal and advanced glycation end products disrupt mitochondrial dynamics and metabolism in c6 astroglioma cells | ||||
Gary Glick | Lycera Corporation, Ann Arbor, MI, US | |||||
Erich Gnaiger | Medical University Innsbruck, AT | The Mitochondrial Physiology Map - MiPMap | ||||
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 | ||||
Martin Gram | University of Copenhagen, DK | Mitochondrial respiration and ROS production in response to physical inactivity in young and old men | tentative | |||
Peter Hansell | Uppsala University, SE | |||||
Steven Hand | LSU, Baton Rouge, Lousiana, US | Defense against ATP depletion during the energy-limited state of diapause. | ||||
Hassan Hashimi | Academy of Sciences of the Czech Rep., Ceske Budejovice, CZ | Ancestral function of Letm1 as determined in the evolutionary diverged Trypanosoma brucei | ||||
Juliana Heidler | JW-Goethe University, Frankfurt, DE | Functional plasticity of interfibrillary mitochondria (IFM) as cardiac response mechanism to stress | ||||
Eric Hendricks | Eastern Illinois University, Charleston, US | Bioenergetics of permeabilized and intact nerve cell terminals from ApoE deficient and wild type mice | ||||
Anthony Hickey | University of Auckland, NZ | Mitochondria in a changing climate? The role of mitochondrial in hyperthermic heart failure in different fish species | ||||
Graham Holloway | University of Guelph, CA | tentative | ||||
Charles Hoppel | Cleveland, Ohio, US | |||||
Brian Irving | Geisinger Health System, Danville, US | Sex differences in murine mitochondrial oxidative capacity following a 24 week high-fat diet | ||||
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 | HypoxiaNet | |||
Petr Jezek | Academy of Sciences of the Czech Rep., Prague, CZ | Antioxidant synergy of mitochondrial uncoupling protein UCP2 and phospholipase iPLA2γ | ||||
Jaap Keijer | Wageningen University, NL | Three non-invasive methods to measure metabolic health in mice using indirect calorimetry | ||||
Werner Koopman | Radboud University Medical Centre, Nijmegen, NL | Developing novel treatment strategies for mitochondrial disease | ||||
Aleksandra Kotwica | University of Cambridge, UK | Mitochondrial respiration in heart and soleus of ob/ob mice | ||||
Sergey Korotkov | Academy of Sciences, St Petersburg, RU | Thallium(I) induces the mitochondrial permeability transition pore in Ca2+-loaded rat liver mitochondria | ||||
Andrey Kozlov | Ludwig Boltzmann Institute, Vienna, AT | Regulatory role of mitochondrial ROS upon inflammation | ||||
Regitze Kraunsoee | University of Copenhagen, DK | tentative | ||||
Bernard Korzeniewski | Jagiellonian University, Krakow, PL | 'Regulation of oxidative phosphorylation during work transitions in various tissues results from its kinetic properties | ||||
Verena Laner | OROBOROS INSTRUMENTS, Innsbruck, Austria | Local organizer | ||||
Steen Larsen | University of Copenhagen, DK | Skeletal muscle respiration after high intensity training | tentative | |||
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 | ||||
Hong Kyu Lee | Eulji University College of Medicine, Seoul, KR | Building the mitochondrial medicine; need to define mtDNA variations and its function | ||||
Hélène Lemieux | University of Alberta, CA | |||||
Carsten Lundby | University of Zurich, CH | The effects of hypoxic training on aerobic performance in normoxia and moderate hypoxia: a randomized, double blind, placebo controlled study. | HypoxiaNet | |||
Stine Lundby | University of Zurich, CH | HypoxiaNet | ||||
Katherine Lyabakh | Glushkov Institute of Cybernetics National Academy of Sciences, Kiev, UA | Changes in oxidative power and intracellular redistribution of mitochondria can regulate tissue pO2 and oxygen consumption rate under circulatory hypoxia. | ||||
Marina Makrecka | Riga Stradins University, Riga,LV | The accumulation of long chain acyl-carnitines is a major cause of mitochondrial damage during ischemia | ||||
Felix Mark | Alfred Wegener Institute for Polar and Marine Search, Bremerhaven, DE | |||||
Jose Matallo | Universitätsklinikum Ulm, DE | |||||
Michael Menze | Eastern Illinois University, Charleston, US | Group1 LEA protein ameliorates inhibition of mitochondrial respiration in Drosophila melanogaster Kc167 cells and isolated mitochondria | ||||
Alexandre Pastoris Muller | Universidade Federal do Rio Grande do Sul, Porto Alegre, BR | Insulin prevents mitochondrial generation of H2O2 in rat brain | ||||
Daniel Munro | Université du Québec à Rimouski, CA | Mitochondrial membrane of the longest-lived metazoan (A.islandica) are lipoxidation-resistant | ||||
Marcus Oliveira | Universidade Federal do Rio de Janeiro, BR | Comparative mitochondrial physiology in blood feeding insect vectors and parasites | ||||
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 | ||||
Jamile Paier-Pourani | L. Boltzmann Institute für experimentelle und klinische Traumatologie, Vienna, AT | Feed forward iNOS-mitochondrial ROS loop in Hepatocytes. | ||||
Fredrik Palm | Uppsala University, SE | Role of mitochondria function for the onset and progression of kidney disease. | ||||
Dominik Pesta | Yale University School of Medicine, US | |||||
Carl Pinkert | Auburn University, Alabama, US | Murine Modeling of Human Mitochondrial Disease Pathogenesis | ||||
Priscila Pena Diaz | Czech Academy of Sciences, CZ | |||||
Patrik Persson | Uppsala University, SE | The effects of Angiotensin II on mitochondrial respiration; a role of normoglycemia versus hyperglycemia | ||||
Nicolas Pichaud | Université du Québec à Rimouski, CA | Importance of mitochondrial haplotypes in the expression of metabolic phenotypes under different conditions | ||||
Lydie Plecita-Hlavata | Academy of Sciences of the Czech Rep., Prague, CZ | Mitochondrial network and cristae remodeling upon hypoxia | ||||
Björn Quistorff | University of Copenhagen, SE | With type 2 diabetes mitochondrial dysfunction develops earlier in liver than in rat skeletal muscle. | ||||
Dionizio Ramos Mendes Filho | Federal University of Rio de Janeiro, BR | High intensity interval training (HIIT) induces different responses in respiration and H2O2 production induced by different substrates in three types of permeabilized myofibers. | Tomas Regueira | Universidad Católica de Chile, Santiago de Chile, CL | ||
Mariana Rodrigues | Federal University of Rio de Janeiro, BR | |||||
Rodrigue Rossignol | Université Victor Segalen-Bordeaux 2, FR | part time | ||||
Roberto Scatena | Catholic University, Rome, IT | tentative | ||||
Tomas Schiffer | Karolinska Institute, Stockholm, SE | Dietary Inorganic Nitrate Reduces Basal Metabolic Rate in Man | ||||
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 | ||||
Vitaly Selivanov | Universitat de Barcelona, ES | Analysis of bifurcation characteristics of the mitochondrial respiratory chain operation and factors determining its specificity for various tissues | ||||
Fedor Severin | Moscow State University, RU | Mitochondrially-encoded protein Var1 promotes loss of respiratory function in Saccharomyces cerevisiae under stressful conditions | ||||
Irina Shabalina | Stockholm University, Stockholm, SE | Comparative study of brown and white adipose tissue mitochondria in mice upon cold acclimation | ||||
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 | ||||
Christian Silva Platas | Medical School, Tec de Monterrey, MX | Modulation of Ca2+ mitochondrial transport by sorcin | ||||
Vladimir Skulachev | Moscow State University, RU | SkQ1, the first tool to treat ROS-induced mitochondrial pathologies, which is available in drugstores | ||||
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 | ||||
Katharina Smolkova | Academy of Sciences of the Czech Rep., Prague, CZ | Reverse carboxylation glutaminolysis in breast cancer cells | ||||
Lauren Sparks | Burnham Institute for Medical Research, Orlando, US | |||||
James Staples | University of Western Ontario, London, CA | Mechanisms of mitochondrial metabolic depression in hibernation | ||||
Roland Stocker | Victor Chang Cardiac Research Institute, Sydney, AU | tentative | ||||
Karolina Subrtova | Biology Centre, ASCR, Ceske Budejovice, CZ | Hypothetical trypanosoma protein helps to anchor the F1-ATPase moiety to the mitochondrial membrane | ||||
Marten Szibor | University of Helsinki, FI | |||||
Kersti Tepp | National Institute of Chemical Physics and Biophysics, Tallin, EE | Bioenergetic aspects of postnatal development of cardiac cells: formation of structure-function relationship | ||||
Jason Treberg | University of Manitoba, Winnipeg, CA | |||||
Laszlo Tretter | Semmelweis University, Budapest, HU | The effects of methylmalonic acid on alpha-ketoglutarate supported oxidation in isolated brain, heart and liver mitochondria | ||||
Anibal Vercesi | State University of Campinas, BR | Mitochondrial calcium transport in animal, plant and trypanosomes | ||||
Kristine Volska | Riga Stradins University, Riga, LV | The inhibitor of L-carnitine biosynthesis protects brain mitochondria against anoxia-reoxygenation injury. | ||||
Dominique Votion | University of Liège, BE | The challenge of understanding myopathies in horses using permeabilized and cultured equine muscle cells | ||||
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 | ||||
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 | ||||
Lauren Wright | Dipartimento di Scienze Biomediche, Padova, IT | Calcium regulation of metabolism in adipocytes | ||||
Jaroslav Zelenka | Academy of Sciences, Prague, CZ | Response of cancer cells to mitochondrial DNA damage
Poster: Reverse carboxylation glutaminolysis in breast cancer cells|| | ||||
Session on high-altitute mitochondrial physiology and hypoxia
- Supported by COST project HypoxiaNet for members of this network.
Pre-conference Workshop
- OROBOROS Oxygraph-2k Workshop IOC78 - limited to 30 participants (6 O2k)