Browsing Kinesiology by Author "Witczak, Carol A."
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Constitutively Active CaMKKα Stimulates Skeletal Muscle Glucose Uptake in Insulin-Resistant Mice In Vivo
Hinkley, J. Matthew; Ferey, Jeremie L.; Brault, Jeffrey J.; Smith, Cheryl A. S.; Gilliam, Laura A. A.; Witczak, Carol A. (2014-01) -
ELUCIDATION ON THE MECHANISM OF CAMKKα AS A PRO-GROWTH KINASE IN MOUSE SKELETAL MUSCLE
Ferey, Jeremie L. (East Carolina University, 2016-12-15)Type 2 diabetes affects ~25 million people in the U.S., and is the primary cause of non-traumatic lower limb amputation and the leading cause of blindness in adults. Major risk factors for the development of type 2 diabetes ... -
Insulin Resistance Is Not Sustained Following Denervation in Glycolytic Skeletal Muscle
McMillin, Shawna L.; Stanley, Erin C.; Weyrauch, Luke A.; Brault, Jeffrey J.; Kahn, Barbara B.; Witczak, Carol A. (2021-05-06) -
Regulation of Skeletal Muscle Glucose Transport and Glucose Metabolism by Exercise Training
Evans, Parker L.; McMillin, Shawna L.; Weyrauch, Luke A.; Witczak, Carol A. (2019-10-12)Aerobic exercise training and resistance exercise training are both well-known for their ability to improve human health; especially in individuals with type 2 diabetes. However, there are critical differences between these ... -
Short-term, high-fat diet accelerates disuse atrophy and protein degradation in a muscle-specific manner in mice
Roseno, Steven L.; Davis, Patrick R.; Bollinger, Lance M.; Powell, Jonathan J. S.; Witczak, Carol A.; Brault, Jeffrey J. (2015-11-04)Background: A short-term high-fat diet impairs mitochondrial function and the ability of skeletal muscle to respond to growth stimuli, but it is unknown whether such a diet alters the ability to respond to atrophy signals. ... -
Short-term, high-fat diet accelerates disuse atrophy and protein degradation in a muscle-specific manner in mice
Roseno, Steven L.; Davis, Patrick R.; Bollinger, Lance M.; Powell, Jonathan J. S.; Witczak, Carol A.; Brault, Jeffrey J. (2015-11)