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PKC and CaMK in human skeletal muscle : effects of exercise

Rose, Adam J. 2004, PKC and CaMK in human skeletal muscle : effects of exercise, Ph.D. thesis, School of Exercise and Nutrition Sciences, Deakin University.

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Title PKC and CaMK in human skeletal muscle : effects of exercise
Author Rose, Adam J.
Institution Deakin University
School School of Exercise and Nutrition Sciences
Faculty Faculty of Health and Behavioural Sciences
Degree name Ph.D.
Date submitted 2004
Keyword(s) Muscles - Physiology
Exercise - Physiological aspects
Summary The effects of exercise on novel signalling enzymes in skeletal muscle of humans was investigated. It was shown that exercise increased the activity of a calcium and calmodulin activated kinase. High-intensity, but submaximal, exercise increased the activity of some but not all isoforms of protein kinase C, a lipid-activated kinase family. These findings suggest that these enzymes may be part of the signalling process leading to beneficial adaptation to repeated exercise as well as the control of function within skeletal muscle during exercise.
Language eng
Description of original x, 156 p. ; 30 cm.
Dewey Decimal Classification 611.0186
Persistent URL http://hdl.handle.net/10536/DRO/DU:30026756

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