Metabolomics and Lipidomics: Expanding the Molecular Landscape of Exercise BiologyMehdi R. Belhaj, Nolan J. Hoffman|Metabolites|2021Cited by 122
Genetic loss of AMPK-glycogen binding destabilises AMPK and disrupts metabolismNolan J. Hoffman, John A. Hawley|Molecular Metabolism|2020Cited by 38
Omega-3 Polyunsaturated Fatty Acids Mitigate Palmitate-Induced Impairments in Skeletal Muscle Cell Viability and DifferentiationBill Tachtsis, Nolan J. Hoffman|Frontiers in Physiology|2020Cited by 24
Mice with Whole-Body Disruption of AMPK-Glycogen Binding Have Increased Adiposity, Reduced Fat Oxidation and Altered Tissue Glycogen DynamicsNatalie R. Janzen, Nolan J. Hoffman|International Journal of Molecular Sciences|2021Cited by 9
Disrupting AMPK-Glycogen Binding in Mice Increases Carbohydrate Utilization and Reduces Exercise CapacityNatalie R. Janzen, Nolan J. Hoffman|Frontiers in Physiology|2022Cited by 5