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| == Program == | | __TOC__ |
| '''2022-06-29''' Day 1Β of scientific presentations
| | == Discussion: The future of BEC == |
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| {| class="wikitable"
| | === Beyond counting papers === |
| ! Time (CET) !!Topic !! Time per lecture !!Title !! Speaker
| | ::::* [[Gnaiger_2021_Bioenerg_Commun]] |
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| | '''09:15-10:30''' || '''Session I''' ||Β ||Β ||
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| |Β || ||Β 09:15 || ''Opening speech:'' [[Bioblasts |Bioblasts - the taxonomic unit of bioenergetics: mitochondria, chloroplasts, aerobic bacteria''']] || [[Gnaiger Erich]]
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| |Β || ||Β 09:35 || Art introduction by [[Odra Noel]]Β || Ana Hidalgo
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| |Β ||Β || 09:45Β || [[Lane Nick |The Alpha and Omega of Metabolism: Why the Krebs Cycle brings the Earth to Life and our own Lives to an End]] || [[Lane Nick]]
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| |Β || || 10:15Β || [[Chakrabarti L 2022 Abstract Bioblast|"Going south!β An Antarctic expedition to understand more about mitochondrial haemoglobin and ageing.
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| ]] || [[Chakrabarti Lisa]]
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| [[Alencar 2022 MitoFit |A unifying hypothesis for the extraordinary energy metabolism of bloodstream Trypanosoma brucei]] || [[Oliveira Marcus F]]
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| | '''10:30-11:15''' || '''Coffee Break''' ||Β ||Β ||
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| | '''11:15-12:30''' || '''Session II''' ||Β ||Β ||
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| |Β || || 11:15Β || [[Donnelly 2022 Abstract Bioblast|The ABC of hypoxia β what is the norm?]] ||Β [[Donnelly Chris]]
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| |Β || || 11:30 || [[Schmitt 2022 Abstract Bioblast|Using oxygen and hydrogen gas in studies of mitochondrial respiration and hydrogen peroxide production under hyperoxic, normoxic, and hypoxic conditions]] || [[Schmitt Sabine]]
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| |Β || || 11:45 || [[Hand 2022 Abstract Bioblast|Metabolic shutdown of bioenergetics: Protection of macromolecules and survivorship during stress]] ||Β [[Hand Steven C]]
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| |Β || || 12:00 || [[Roach 2022 Abstract Bioblast |Oxidative stress in photosynthesis]] || [[Roach Thomas]]
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| |Β || || 12:15 ||Β [[Vera Vives 2022 MitoFit |Application of the NextGen-O2k for building photosynthesis-irradiance curves in microalgae. ]] || [[Morosinotto Tomas]]
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| | '''12:30-14:00''' || '''Lunch Break - Orangerie''' ||Β ||Β ||
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| | '''14:00-15:00''' ||'''Session III''' || ||Β ||
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| |Β ||Β || 14:00|| [[Komlodi 2022 MitoFit |The protonmotive force - not merely membrane potential]] || [[Komlodi Timea]]
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| |Β || || 14:15 || [[Heimler 2022 MitoFit|Platelet bioenergetics are associated with resting metabolic rate and exercise capacity in older women]] || [[Molina Anthony JA]]
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| |Β || || 14:30 || [[Granata 2022 Abstract Bioblast |Exercise training-induced enhancement of electron flow to the OXPHOS system is more important than increasing the OXPHOS machinery content to improve ATP generation in human skeletal muscle]] || [[Granata Cesare]]
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| |Β || || 14:45 ||Β
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| [[Place 2022 Abstract Bioblast|Ca2+-induced mitochondrial adaptations in response to a single session of sprint interval training]] || [[Place Nicolas]]
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| |Β '''15:00Β - 15:30''' || '''Poster session''' || || ||
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| | '''15:30 - 16:00''' || '''Coffee Break''' ||Β || ||
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| | '''16:00-17:00''' ||'''Session IV''' || ||Β ||
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| |Β ||Β || 16:00 || [[Baglivo 2022 MitoFit-QC|Statistical analysis of instrumental reproducibility as internal quality control in high-resolution respirometry]] || [[Baglivo Eleonora]]
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| |Β || || 16:15 || [[Chicco 2022 MitoFit |Elucidating the complexity of substrate-uncoupler-inhibitor titration protocols]] || [[Chicco Adam J]]
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| |Β || || 16:30 || [[Cardoso 2022 Abstract Bioblast |Redox monitoring and respiration - a new horizon with the NextGen-O2k]] || [[Cardoso Luiza HD]]
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| |Β || || 16:45 || [[Garcia-Roves 2022 Abstract Bioblast|Tuning the assessment of coenzyme Q redox state and respiration in skeletal muscle permeabilized fibers]] || [[Garcia-Roves Pablo Miguel]]
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| '''2022-06-30''' Day 2 of scientific presentations
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| {| class="wikitable"
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| ! Time (CET) !! Topic !! Time per lectureΒ !!Title !! Speaker
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| | '''09:00Β - 10:30''' || '''Session V''' ||Β ||Β ||
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| |Β ||Β || 09:00 || [[Cecatto 2022 Abstract Bioblast|Mitochondrial calcium uptake capacity is lower than calcium retention capacity in the presence and absence of cyclosporin A]] || [[Cecatto Cristiane]]
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| [[Koopman 2022 Abstract Bioblast|The decylTPP mitochondria-targeting moiety lowers electron transport chain supercomplex levels in primary human skin fibroblasts]] ||Β [[Koopman_Werner_JH]]
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| |Β || || 09:15 ||Β [[Serna 2022 Abstract Bioblast|Measuring mitochondrial Ca2+ efflux in isolated mitochondria and permeabilized cells]] || [[Serna Julian DC]]
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| [[Abed Rabbo 2022 MitoFit|NUBPL: a mitochondrial Complex I deficiency disorder]] || [[Stiban Johnny]]
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| |Β || || 09:30 || [[Posch 2022 MitoFit|How to optimize respiratory models for SARS-CoV-2 research]] || [[Wilflingseder Doris]]
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| |Β || || 09:45 || [[Heichler_2022_MitoFit|Physiometabolic RTCA on an automated platform for short and long term applications]] || [[Wolf Peter]]
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| [[Torres-Quesada 2022 MitoFit Kinase|Kinase perturbations redirect mitochondrial function]] || [[Torres-Quesada Omar]]
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| |Β || || 10:00 || [[Ecker 2022 Abstract Bioblast|Contextual Tissue Cytometry with AI β Functional Single Cell Analyses ''in-situ'']] || [[Ecker Rupert]]
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| [[Stefan 2022 Abstract Bioblast|Tracking patient-mutation and lead-molecule driven alterations of kinase activity conformations]] || [[Stefan Eduard]]
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| |Β || || 10:05 ||Β [[Pilot-Storck 2022 Abstract Bioblast |Hacd1 and Hacd2 genes control mitochondrial energetic efficiency through the modulation of mitochondrial membranes phospholipid composition]] || Pilot-Storck F
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| |Β || || 10:10 ||Β [[Magri 2022 Abstract Bioblast|Modulation of mitochondrial respiration in ALS cells by hexokinase-based peptides: a novel therapeutic approach to fight neurodegeneration]]|| [[Magri Andrea]]
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| |Β '''10:15Β - 11:15''' || '''Coffee Break''' || || ||
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| | '''11:15 - 12:30''' || '''Session VI''' ||Β ||Β ||
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| |Β || || 11:15 || [[Sobotka 2022 Abstract Bioblast| The Crabtree effect and clinical nutrition]] || [[Sobotka Lubos]]
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| |Β || || 11:30 || [[Moreno-Sanchez 2022 Abstract Bioblast| Estimation of energy pathway fluxes in cancer cells- beyond the Warburg effect]] || [[Moreno-Sanchez Rafael]]
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| |Β || || 11:45 || [[Porter 2022 Abstract Bioblast|A comparison of bioenergetics in human tongue pre-cancerous dysplastic oral keratinocytes and squamous cancer cells ]] || [[Porter Richard K]]
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| |Β ||Β || 12:00 || [[Neuzil 2022 Abstract Bioblast|Metabolic switch utilizing ammonia supports proliferation in regenerating liver]] || [[Neuzil Jiri]]
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| |Β ||Β || 12:15 || [[Lai 2022 Abstract Bioblast|Effect of isolation protocol of skeletal muscle mitochondrial subpopulations on bioenergetic function]] || [[Lai Nicola]]
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| [[Sumbalova 2022 Abstract Bioblast|Ubiquinol supplementation accelerates the recovery of mitochondrial health of patients with post COVID-19 syndrome on mountain spa rehabilitation]]|| [[Sumbalova Zuzana]]
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| |Β ||Β || 12:20 || [[Lerink 2022 Abstract Bioblast|Renal respiratory conductance: a complex matter]] || [[Lerink Lente JS]]
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| |Β ||Β || 12:25 ||Β [[Meszaros 2022 Abstract Bioblast|Pre-transplant mitochondrial respiration as a clinical prognostic marker during static cold storage and machine perfusion of the liver]] || [[Meszaros Andras]]
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| [[Karabatsiakis 2022 Abstract Bioblast| Effects of eye-movement desensitization and reprocessing (EMDR) therapy on mitochondrial bioenergetics in immune cells from patients with post-traumatic stress disorder (PTSD): a pilot study.]] || [[Karabatsiakis Alexander]]
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| | '''12:30 - 14:00''' || '''Lunch Break - Orangerie''' ||Β ||Β ||
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| | '''14:00-15:00''' ||'''Session VII''' || ||Β ||
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| |Β ||Β || 14:00 || [[Eggelbusch 2022 Abstract Bioblast|Nutrient overload and insulin resistance precede reductions in mitochondrial respiration in skeletal muscle after bed rest]] || [[Eggelbusch Moritz]]
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| [[Dambrova 2022 Abstract Bioblast|Mitochondrial metabolites acylcarnitines: therapeutic potential and drug targets]]|| [[Dambrova Maija]]
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| |Β || || 14:05 ||Β [[Goulding 2022 Abstract Bioblast|Mitochondrial function is not impaired in type 1 diabetes but does not respond to 4-weeks endurance training]] || [[Goulding Richie P]]
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| [[Aasander Frostner 2022 MitoFit|Towards a treatment for mitochondrial disease: Current compounds in clinical development] || [[Aasander Frostner Eleonor]]
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| |Β || || 14:10 || [[Chabi 2022 Abstract Bioblast|Coordination between MAMs, mitochondrial function and protein synthesis in exercised and myopathic muscles]] || [[Chabi Beatrice]]
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| |Β || || 14:15 ||Β [[Irving 2022 Abstract Bioblast| Impact of nitric oxide promotors on mitochondrial bioenergetics in a murine model of Alzheimer's Disease]] || [[Irving Brian A]]
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| |Β || || 14:20 ||
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| |Β || || 14:55 || [[Axelrod 2022 Abstract Bioblast |Segmental regulation of intestinal mitochondrial function]] || [[Axelrod Christopher L]]
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| | '''15:00 - 15:30''' || '''Poster session''' ||Β ||Β ||
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| | '''15:30 - 16:00''' || '''Coffee Break''' ||Β ||Β ||
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| | '''16:00-17:00''' ||'''Session 8''' || ||Β ||
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| |Β ||Β || 16:00 ||
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| |Β || || 16:15Β ||
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| |Β || || 16:30 ||
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| |Β || || 16:45 ||
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| |Β || || 16:50 || [[Batra 2022 Abstract Bioblast|Nano-encapsulated Dichloroacetophenone (DAP) essential mitochondrial enzyme, is a potential inhibitor of prostate cancer cell growth]]|| [[Batra Jyotsna]]
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| | '''17:00 - 17:30''' || '''Discussion: The future of BEC''' ||Β ||Β ||
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| |}
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