| Role of PGC-1α during acute exercise-induced autophagy and mitophagy in skeletal muscle A Vainshtein, LD Tryon, M Pauly, DA Hood American Journal of Physiology-Cell Physiology 308 (9), C710-C719, 2015 | 402 | 2015 |
| PGC-1α modulates denervation-induced mitophagy in skeletal muscle A Vainshtein, EMA Desjardins, A Armani, M Sandri, DA Hood Skeletal muscle 5, 1-17, 2015 | 170 | 2015 |
| Adaptive plasticity of autophagic proteins to denervation in aging skeletal muscle MF O'Leary, A Vainshtein, S Iqbal, O Ostojic, DA Hood American Journal of Physiology-Cell Physiology 304 (5), C422-C430, 2013 | 165 | 2013 |
| Autophagy is not required to sustain exercise and PRKAA1/AMPK activity but is important to prevent mitochondrial damage during physical activity F Lo Verso, S Carnio, A Vainshtein, M Sandri Autophagy 10 (11), 1883-1894, 2014 | 163 | 2014 |
| Signaling pathways that control muscle mass A Vainshtein, M Sandri International journal of molecular sciences 21 (13), 4759, 2020 | 139 | 2020 |
| The regulation of autophagy during exercise in skeletal muscle A Vainshtein, DA Hood Journal of Applied Physiology 120 (6), 664-673, 2016 | 139 | 2016 |
| TFE 3 regulates whole‐body energy metabolism in cooperation with TFEB N Pastore, A Vainshtein, TJ Klisch, A Armani, T Huynh, NJ Herz, ... EMBO molecular medicine 9 (5), 605-621, 2017 | 128 | 2017 |
| Denervation-induced mitochondrial dysfunction and autophagy in skeletal muscle of apoptosis-deficient animals MFN O′ Leary, A Vainshtein, HN Carter, Y Zhang, DA Hood American Journal of Physiology-Cell Physiology 303 (4), C447-C454, 2012 | 122 | 2012 |
| Mechanisms of exercise‐induced mitochondrial biogenesis in skeletal muscle: implications for health and disease DA Hood, G Uguccioni, A Vainshtein, D D'souza Comprehensive Physiology 1 (3), 1119-1134, 2011 | 119 | 2011 |
| Skeletal muscle, autophagy, and physical activity: the ménage à trois of metabolic regulation in health and disease A Vainshtein, P Grumati, M Sandri, P Bonaldo Journal of molecular medicine 92, 127-137, 2014 | 108 | 2014 |
| Effects of endurance training on apoptotic susceptibility in striated muscle A Vainshtein, L Kazak, DA Hood Journal of applied physiology 110 (6), 1638-1645, 2011 | 74 | 2011 |
| Nutrient‐sensitive transcription factors TFEB and TFE 3 couple autophagy and metabolism to the peripheral clock N Pastore, A Vainshtein, NJ Herz, T Huynh, L Brunetti, TJ Klisch, ... The EMBO journal 38 (12), e101347, 2019 | 72 | 2019 |
| The CLN3 gene and protein: What we know M Mirza, A Vainshtein, A DiRonza, U Chandrachud, LJ Haslett, M Palmieri, ... Molecular genetics & genomic medicine 7 (12), e859, 2019 | 56 | 2019 |
| Exercise and the regulation of mitochondrial turnover DA Hood, LD Tryon, A Vainshtein, J Memme, C Chen, M Pauly, MJ Crilly, ... Progress in molecular biology and translational science 135, 99-127, 2015 | 54 | 2015 |
| Selective autophagy by close encounters of the ubiquitin kind A Vainshtein, P Grumati Cells 9 (11), 2349, 2020 | 33 | 2020 |
| The effects of chronic muscle use and disuse on cardiolipin metabolism O Ostojić, MFN O'Leary, K Singh, KJ Menzies, A Vainshtein, DA Hood Journal of applied physiology 114 (4), 444-452, 2013 | 33 | 2013 |
| Recent advances in mitochondrial turnover during chronic muscle disuse LD Tryon, A Vainshtein, JM Memme, MJ Crilly, DA Hood Integrative Medicine Research 3 (4), 161-171, 2014 | 30 | 2014 |
| Jak2-mediated phosphorylation of Atoh1 is critical for medulloblastoma growth TJ Klisch, A Vainshtein, AJ Patel, HY Zoghbi Elife 6, e31181, 2017 | 21 | 2017 |
| Acute Exercise‐Induced Mitophagy is Mediated in Part by PGC‐1α A Vainshtein, L Tryon, M Pauly, D Hood The FASEB Journal 29, 821.4, 2015 | 2 | 2015 |
| Scientific meeting report: International Biochemistry of Exercise 2022 A Vainshtein, MB Slavin, AJ Cheng, JM Memme, AN Oliveira, CGR Perry, ... Journal of Applied Physiology 133 (6), 1381-1393, 2022 | 1 | 2022 |
