Litcius/Paper detail

Aerobic exercise timing affects mitochondrial dynamics and insulin resistance by regulating the circadian clock protein expression and NAD+-SIRT1-PPARα-MFN2 pathway in the skeletal muscle of high-fat-diet-induced diabetes mice

Raha Pourabdi, Fereshteh Shahidi, Mohammad Reza Tabandeh, Mojtaba Salehpour

2024Journal of Physiology and Biochemistry18 citationsDOI

Topics & Concepts

Circadian rhythmEndocrinologyMFN2Insulin resistanceCircadian clockInternal medicineSkeletal muscleNAD+ kinaseBiologyCLOCKAerobic exerciseType 2 diabetesInsulinDiabetes mellitusMedicineBiochemistrymitochondrial fusionGeneMitochondrial DNAEnzymeCircadian rhythm and melatoninAdipose Tissue and MetabolismDietary Effects on Health
Aerobic exercise timing affects mitochondrial dynamics and insulin resistance by regulating the circadian clock protein expression and NAD+-SIRT1-PPARα-MFN2 pathway in the skeletal muscle of high-fat-diet-induced diabetes mice | Litcius