Skeletal Muscle Changes of ATP, Creatine Phosphate, DPNH-reductase, and Phosphorylase in Rats Trained at 900 and 7600 Feet Altitude |
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activity adaptation ALTITUDE CONTROL ALTITUDE ENDURANCE altitude sprint group AMBIENT CONTROL AMBIENT ENDURANCE ambient sprint group amount anaerobic analysis animals appear areas ATP and creatine ATP/CP Biochem body weights bundle cage caused changes CLASSIFICATION combined composition concentrations contraction control group creatine phosphate creatine phosphate levels decreased demonstrated density difference DPNH-TR Edited effect endurance group endurance training examined exercise feet Figure gastrocnemius gastrocnemius-plantaris glycogen glycolytic enzymes grams greater greatest high energy phosphates higher Histochemical human increased intensity intermediate less limb method minutes mitochondria myoglobin observed oxidase oxidative enzymes oxygen performance periods phosphorylase phosphorylase activity physical Physiol Physiology plantaris quantities ratios rats red and white red fibers reduced reported rest result sample sea level selected showed significantly skeletal muscle slides soleus sprint trained stain stored studies TABLE tissue treadmill treatment University weights white fibers Wisconsin