Difference between revisions of "Talk:MiPschool Obergurgl 2017"
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== Tentative programme Version 01 == | == Tentative programme Version 01 == |
Revision as of 14:24, 6 June 2017
Tentative programme Version 01
- Session A (morning) Introduction: coupling control in oxidative phosphorylation
- A1. The electron transfer system β mitochondrial pathways from fuel substrates to oxygen.
- A2. Coupling of the phosphorylation system to electron transfer and respiratory coupling control.
- A3. From Einstein's diffusion equation to Mitchellβs chemiosmotic equation: rates and states in the bioenergetics of oxidative phosphorylation.
- A4. Measurement of coupling in intact cells and mitochondrial preparations: biochemical coupling efficiency and ATP/O2 ratios.
- Session A (morning) Introduction: coupling control in oxidative phosphorylation
- Session B (afternoon) Posters and selected abstracts
- B1. Poster session.
- B2: Selected abstracts: measurement of coupling control in intact cells and mitochondrial preparations - open discussion.
- B3. Towards a data base on coupling control in intact cells.
- Session B (afternoon) Posters and selected abstracts
- 2017-07-25
- Session C (morning) Introduction: from experimental design to data analysis
- C1. Respiratory pathway control in mitochondrial preparations.
- C2. Substrate-uncoupler-inhibitor titration (SUIT) protocols β fundamental principles.
- C3. Normalization of respiratory flux and flow.
- C4. Respiratory control ratios and control factors.
- Session C (morning) Introduction: from experimental design to data analysis
- Session D (afternoon) Posters and selected abstracts
- D1. Selected abstracts: applications of SUIT protocols β open discussion.
- D2. SUIT protocols: design and limitations.
- D3. Towards a data base on mitochondrial respiratory control: diagnostic approaches and comparative mitochondrial physiology.
- Session D (afternoon) Posters and selected abstracts
- 2017-07-26
- Session E (morning) Mitochondrial physiology: biomedical applications (possible titles, depending on keynote lecturers/selected abstracts)
- E1. The challenges of functional mitochondrial diagnosis.
- E2. Mitochondrial fitness in skeletal muscle (Pablo Garcia-Roves, University of Barcelona, ES).
- E3. Scope and limitations of functional mitochondrial diagnosis in blood cells.
- E4. Mitochondrial respiratory function and neuromuscular disease.
- E5. Mitochondrial function and dysfunction in cancer (Richard K Porter, Trinity College Dublin, IE).
- E6. Ischemia-reperfusion injury.
- E7. The metabolic syndrome (Hong Kyu Lee, Eulji University College of Medicine, Seoul, KR).
- E8. Mitochondrial function in aging and regeneration (Pidder Jansen-Duerr, University of Innsbruck, AT).
- Session E (morning) Mitochondrial physiology: biomedical applications (possible titles, depending on keynote lecturers/selected abstracts)
- Session F (afternoon) Comparative mitochondrial physiology (possible titles, depending on keynote lecturers/selected abstracts)
- F1. Mitochondrial physiology in cell models versus primary tissue.
- F2. Mitochondrial physiology studies in mouse models.
- F3. Mitochondrial vertrebrate physiology β extreme performers.
- F5. Mitochondrial physiology of and beyond established animal models.
- F6. Mitochondrial physiology in plants and microbes.
- F7. Mitochondrial physiology and evolution.
- Session F (afternoon) Comparative mitochondrial physiology (possible titles, depending on keynote lecturers/selected abstracts)
Preliminary programme MiPschool (Jul 23-27) Version 02
- This MiPschool will focus on basic concepts on mitochondrial respiratory states and applications of substrate-uncoupler-inhibitor titration (SUIT) protocols.
- Mitochondrial respiratory control: MITOEAGLE recommendations 1
- 2017-07-24
- Session A (morning) Introduction: coupling control in oxidative phosphorylation
- A1. The electron transfer system β Q redox regulation and mitochondrial pathways to oxygen (Anthony L Moore, University of Sussex, UK).
- A2. Coupling of the phosphorylation system to electron transfer and respiratory coupling control (Vilma Borutaite, University of Health Sciences, LT).
- A3. From Einstein's diffusion equation to Mitchellβs chemiosmotic equation: rates and states in the bioenergetics of oxidative phosphorylation (Erich Gnaiger, Medical University of Innsbruck, AT).
- A4. Biochemical coupling efficiency and ATP/O2 ratios (Charles L Hoppel, Case Western Reserve University School of Medicine, Ohio, US).
- Session A (morning) Introduction: coupling control in oxidative phosphorylation
- Session B (afternoon) Posters and selected abstracts
- B1. Poster session.
- B2: Selected abstracts: measurement of coupling control in intact cells and mitochondrial preparations - open discussion.
- B3. Towards a data base on coupling control in intact cells.
- Session B (afternoon) Posters and selected abstracts
- 2017-07-25
- Session C (morning) Introduction: from experimental design to data analysis
- C1. Respiratory pathway control in mitochondrial preparations (Gnaiger Erich, Medical University of Innsbruck, AT).
- C2. Substrate-uncoupler-inhibitor titration (SUIT) protocols β fundamental principles (Carolina Doerrier, OROBOROS INSTRUMENTS, AT).
- C3. Normalization of respiratory flux and flow.
- C4. Respiratory control ratios and control factors (Gnaiger Erich, Medical University of Innsbruck, AT).
- Session C (morning) Introduction: from experimental design to data analysis
- Session D (afternoon) Posters and selected abstracts
- D1. Selected abstracts: applications of SUIT protocols β open discussion.
- D2. SUIT protocols: design and limitations.
- D3. Towards a data base on mitochondrial respiratory control: diagnostic approaches and comparative mitochondrial physiology.
- Session D (afternoon) Posters and selected abstracts
- 2017-07-26
- Session E (morning) Comparative mitochondrial physiology (possible titles, depending on keynote lecturers/selected abstracts)
- E1. Mitochondrial physiology and the scope of cryopreservation in blood cells. (Beata Velika, Pavol Jozef Ε afΓ‘rik University in Kosice, SK)
- E2. Mitochondrial physiology studies in mouse models.
- E3. Mitochondrial vertrebrate physiology β extreme performers.
- E4. Mitochondrial physiology of and beyond established animal models.
- E5. Mitochondrial physiology in plants (Anthony L Moore, University of Sussex, UK).
- E6. Mitochondrial physiology and evolution.
- Session E (morning) Comparative mitochondrial physiology (possible titles, depending on keynote lecturers/selected abstracts)
- Session F (afternoon) Mitochondrial physiology: biomedical applications (possible titles, depending on keynote lecturers/selected abstracts)
- F1. The challenges of functional mitochondrial diagnosis (Charles L Hoppel, Case Western Reserve University School of Medicine, Ohio, US).
- F2. Mitochondrial fitness in skeletal muscle (Pablo Garcia-Roves, University of Barcelona, ES).
- F3. Scope and limitations of functional mitochondrial diagnosis in blood cells. (Anthony Molina,Department of Internal Medicine, US).
- F4. Mitochondrial function and dysfunction: ROS and Ca2+. (Werner Koopman, Radboud University Nijmegen Medical Centre, NL)
- F5. Mitochondrial function and dysfunction in cancer (Richard K Porter, Trinity College Dublin, IE).
- F6. Ischemia-reperfusion injury (Carlos Palmeira, University of Coimbra, PT).
- F7. The metabolic syndrome - dysmitochondrial syndrome and mitochondrial disruptors (Hong Kyu Lee, Eulji University College of Medicine, Seoul, KR).
- F8. Mitochondrial function in aging and regeneration (Pidder Jansen-Duerr, University of Innsbruck, AT).
- Session F (afternoon) Mitochondrial physiology: biomedical applications (possible titles, depending on keynote lecturers/selected abstracts)
- Session G (evening) MITOEAGLE Early Career Investigators forum