Difference between revisions of "Talk:Bioblast 2022"
From Bioblast
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|ย || || 11:00 || [[Vera Vives 2022 MitoFit |The robustness of NextGen-O2k for building PI curves in microalgae ]] || [[Morosinotto Tomas]] | |ย || || 11:00 || 1.5 - [[Vera Vives 2022 MitoFit |The robustness of NextGen-O2k for building PI curves in microalgae ]] || [[Morosinotto Tomas]] | ||
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|ย || || 11:30|| [[Komlodi 2022 MitoFit |The protonmotive force - not merely membrane potential]] || [[Komlodi Timea]] | |ย || || 11:30|| 2.1 - [[Komlodi 2022 MitoFit |The protonmotive force - not merely membrane potential]] || [[Komlodi Timea]] | ||
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|ย || || 11:45 || [[Alencar 2022 MitoFit |A unifying hypothesis for the extraordinary energy metabolism of bloodstream Trypanosoma brucei]] || [[Oliveira Marcus F]] | |ย || || 11:45 || 2.2 - [[Alencar 2022 MitoFit |A unifying hypothesis for the extraordinary energy metabolism of bloodstream Trypanosoma brucei]] || [[Oliveira Marcus F]] | ||
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|ย || || 12:00 ||[[Chicco 2022 MitoFit |Resolving the Rotenone Paradox: elucidating the Complexity of multi-substrate respirometry protocols]] || [[Chicco Adam J]] | |ย || || 12:00 ||2.3 - [[Chicco 2022 MitoFit |Resolving the Rotenone Paradox: elucidating the Complexity of multi-substrate respirometry protocols]] || [[Chicco Adam J]] | ||
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|ย || || 12:15 || [[Axelrod 2022 Abstract Bioblast |Segmental regulation of intestinal mitochondrial function]] || [[Axelrod Christopher L]] | |ย || || 12:15 || 2.4 - [[Axelrod 2022 Abstract Bioblast |Segmental regulation of intestinal mitochondrial function]] || [[Axelrod Christopher L]] | ||
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|ย || || 12:20 || [[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]] | |ย || || 12:20 || 2.5 - [[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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|ย || || 12:25 || [[Pilot-Storck 2022 Abstract Bioblast |Hacd1 and Hacd2 genes control mitochondrial energetic efficiency through the modulation of mitochondrial membranes phospholipid composition]] || Pilot-Storck F ย | |ย || || 12:25 || 2.6 - [[Pilot-Storck 2022 Abstract Bioblast |Hacd1 and Hacd2 genes control mitochondrial energetic efficiency through the modulation of mitochondrial membranes phospholipid composition]] || Pilot-Storck F ย | ||
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Revision as of 09:20, 18 May 2022
Program
2022-06-29 Day 1 of scientific presentations
2022-06-30 Day 2 of scientific presentations