Granata Cesare: Difference between revisions
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|lastname=Granata | |lastname=Granata | ||
|firstname=Cesare | |firstname=Cesare | ||
|institution=Institute of Sport, Exercise and Active Living | |||
Victoria University | Victoria University | ||
|address=Footscray Park Campus | |||
PO box 14428 | |||
Victoria, 8001 | Victoria, 8001 | ||
Australia | Australia | ||
|city=Melbourne | |||
|country=Australia | |||
}} | }} | ||
{{Labelingperson}} |
Revision as of 16:33, 9 October 2014
Name | Granata Cesare, |
---|---|
Institution | Institute of Sport, Exercise and Active Living
Victoria University |
Address | Footscray Park Campus
PO box 14428
Victoria, 8001 Australia, |
City | Melbourne |
State/Province | |
Country | Australia |
[email protected] | |
Weblink | |
O2k-Network Lab | AU Melbourne Bishop DJ, AU Melbourne Coughlan M, DE Duesseldorf Roden M |
Labels:
Publications
Published | Reference | |
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Dewidar 2023 EBioMedicine | 2023 | Dewidar B, Mastrototaro L, Englisch C, Ress C, Granata C, Rohbeck E, Pesta D, Heilmann G, Wolkersdorfer M, Esposito I, Reina Do Fundo M, Zivehe F, Yavas A, Roden M (2023) Alterations of hepatic energy metabolism in murine models of obesity, diabetes and fatty liver diseases. https://doi.org/10.1016/j.ebiom.2023.104714 |
BEC 2020.1 doi10.26124bec2020-0001.v1 | 2020 | Gnaiger E et al β MitoEAGLE Task Group (2020) Mitochondrial physiology. Bioenerg Commun 2020.1. https://doi.org/10.26124/bec:2020-0001.v1 |
Granata 2016 FASEB J | 2016 | Granata C, Oliveira RS, Little JP, Renner K, Bishop DJ (2016) Mitochondrial adaptations to high-volume exercise training are rapidly reversed after a reduction in training volume in human skeletal muscle. FASEB J 30:3413-23. https://doi.org/10.1096/fj.201500100R |
Abstracts
Published | Reference | |
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Granata 2023 MiP2023 | 2023 | Novel mitochondrial respiration protocols reveal organ-specific reliance on ketone body metabolism in mice. |
Granata 2022 Abstract Bioblast | 2022 | 3.3. Β«5 minΒ» Granata Cesare (2022) Exercise training-induced enhancement of electron flow in the OXPHOS system is more important than increasing the OXPHOS machinery content to improve ATP generation in human skeletal muscle. Bioblast 2022: BEC Inaugural Conference. In: https://doi.org/10.26124/bec:2022-0001 |