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Short-term step reduction reduces citrate synthase activity without altering skeletal muscle markers of oxidative metabolism or insulin-mediated signaling in young males

Sophie Edwards, Brandon J. Shad, Ryan N. Marshall, Paul T. Morgan, Gareth A. Wallis, Leigh Breen

2021Journal of Applied Physiology13 citationsDOIOpen Access PDF

Abstract

Short-term (7 day) step reduction reduces the activity of citrate synthase without altering the total or phosphorylated protein content of key markers of skeletal muscle mitochondrial metabolism and insulin signaling in young healthy males.

Topics & Concepts

Citrate synthaseEndocrinologyInternal medicineOxidative phosphorylationSkeletal muscleMitochondrionMetabolismInsulinGlycogenInsulin receptorBiologyCarbohydrate metabolismOxidative stressChemistryBiochemistryInsulin resistanceMedicineEnzymeMuscle metabolism and nutritionCardiovascular and exercise physiologyAdipose Tissue and Metabolism
Short-term step reduction reduces citrate synthase activity without altering skeletal muscle markers of oxidative metabolism or insulin-mediated signaling in young males | Litcius