Ioannis Papadimitriou M.Sc. – Head of the Department for Oral Surgery, Implantology, Soft and Hard Tissue Augmentation – MVZ Das Rosenheim GmbH | LinkedIn
![PDF) A “human knockout” model to investigate the influence of the α-actinin-3 protein on exercise-induced mitochondrial adaptations PDF) A “human knockout” model to investigate the influence of the α-actinin-3 protein on exercise-induced mitochondrial adaptations](https://www.researchgate.net/publication/335580540/figure/fig4/AS:799055441588237@1567521071921/Log-fold-change-from-baseline-to-3-h-post-exercise-for-RR-and-XX-participants-for-a_Q320.jpg)
PDF) A “human knockout” model to investigate the influence of the α-actinin-3 protein on exercise-induced mitochondrial adaptations
![Ioannis PAPADIMITRIOU | Research Associate | BSc (Hons), PhD | Madrid Institute for Advanced Studies, Madrid | IMDEA | IMDEA-Materials Ioannis PAPADIMITRIOU | Research Associate | BSc (Hons), PhD | Madrid Institute for Advanced Studies, Madrid | IMDEA | IMDEA-Materials](https://www.researchgate.net/profile/Ioannis-Papadimitriou-5/publication/281267970/figure/fig4/AS:614025553530885@1523406508610/figure-fig4_Q320.jpg)
Ioannis PAPADIMITRIOU | Research Associate | BSc (Hons), PhD | Madrid Institute for Advanced Studies, Madrid | IMDEA | IMDEA-Materials
![PDF) A “human knockout” model to investigate the influence of the α-actinin-3 protein on exercise-induced mitochondrial adaptations PDF) A “human knockout” model to investigate the influence of the α-actinin-3 protein on exercise-induced mitochondrial adaptations](https://www.researchgate.net/publication/335580540/figure/fig5/AS:959531244867588@1605781484940/Log-fold-change-from-baseline-to-3h-post-exercise-for-PGC-1-a-protein-content-in-the_Q320.jpg)
PDF) A “human knockout” model to investigate the influence of the α-actinin-3 protein on exercise-induced mitochondrial adaptations
![(PDF) A “human knockout” model to investigate the influence of the α-actinin-3 protein on exercise-induced mitochondrial adaptations (PDF) A “human knockout” model to investigate the influence of the α-actinin-3 protein on exercise-induced mitochondrial adaptations](https://i1.rgstatic.net/publication/335580540_A_human_knockout_model_to_investigate_the_influence_of_the_a-actinin-3_protein_on_exercise-induced_mitochondrial_adaptations/links/5fb647e9458515b797510786/largepreview.png)
(PDF) A “human knockout” model to investigate the influence of the α-actinin-3 protein on exercise-induced mitochondrial adaptations
![Ioannis PAPADIMITRIOU | Research Associate | BSc (Hons), PhD | Madrid Institute for Advanced Studies, Madrid | IMDEA | IMDEA-Materials Ioannis PAPADIMITRIOU | Research Associate | BSc (Hons), PhD | Madrid Institute for Advanced Studies, Madrid | IMDEA | IMDEA-Materials](https://i1.rgstatic.net/ii/profile.image/545821243514880-1507145333650_Q512/Ioannis-Papadimitriou-5.jpg)
Ioannis PAPADIMITRIOU | Research Associate | BSc (Hons), PhD | Madrid Institute for Advanced Studies, Madrid | IMDEA | IMDEA-Materials
![PDF) A “human knockout” model to investigate the influence of the α-actinin-3 protein on exercise-induced mitochondrial adaptations PDF) A “human knockout” model to investigate the influence of the α-actinin-3 protein on exercise-induced mitochondrial adaptations](https://www.researchgate.net/publication/335580540/figure/fig2/AS:799055441580036@1567521071833/a-Representative-images-of-a-actinin-2-and-a-actinin-3-protein-content-in-ACTN3-RR-vs_Q320.jpg)