Add to ORKGThe structural conditions relevant for metabolite exchange in anaerobic and aerobic work conditions in muscle tissue are reviewed. High-intensity non-steady-state exercise is supported by the phosphocreatine pool, which serves as a shuttle for high-energy phosphates produced by glycolysis and by aerobic metabolism. This is achieved through the intermediary of a topologically organized creatine kinase isozyme system. The muscle capillary network supplies substrate and environmental oxygen to the mitochondria. The network is quantitatively matched to the muscle oxidative capacity, determined structurally by mitochon-drial volume. Capillary hematocrit, erythrocyte spacing and oxygen saturation of myoglobin are critical variables for oxygen rel...
On the basis of experimental studies, the intracellular O(2) (iPo(2))-work rate (WR) relationship in...
The metabolic and biochemical adaptations which set the endurance limit in skeletal muscle and are m...
Direct assessments of the relative contribut ions of •th ~ major energy releasing pathways in human ...
Muscle is subjected to major modifications of energy require-ments and as a result regulates the rat...
This chapter outlines the history of the study of anaerobic metabolism during exercise. The emphasis...
peer reviewedIn general, muscular exertion occurs when there is oxygenation of the energy substrates...
of this series, we have shown that oxidation rates of both substrates are scaled with aerobic capaci...
That the energy requirements for muscular exercise in the human organism are derived largely from th...
Upon a sudden rise in work rate, ATP turnover increases immediately, whereas the adjustment of ATP r...
Tissues such as skeletal and cardiac muscles must sustain very large-scale changes in ATP turnover r...
It is well known that exercise increases glucose transport into skeletal muscles. The regulation of ...
Isotope tracer infusion studies employing lactate, glucose, glycerol, and fatty acid isotope tracers...
It has long been appreciated that contraction of skeletal muscle results in the production of lactic...
The metabolic and biochemical factors involved in the regulation of fuel and pathway selection, at a...
Muscle is a major player in metabolism. It uses large amounts of glucose in the absorptive state and...
On the basis of experimental studies, the intracellular O(2) (iPo(2))-work rate (WR) relationship in...
The metabolic and biochemical adaptations which set the endurance limit in skeletal muscle and are m...
Direct assessments of the relative contribut ions of •th ~ major energy releasing pathways in human ...
Muscle is subjected to major modifications of energy require-ments and as a result regulates the rat...
This chapter outlines the history of the study of anaerobic metabolism during exercise. The emphasis...
peer reviewedIn general, muscular exertion occurs when there is oxygenation of the energy substrates...
of this series, we have shown that oxidation rates of both substrates are scaled with aerobic capaci...
That the energy requirements for muscular exercise in the human organism are derived largely from th...
Upon a sudden rise in work rate, ATP turnover increases immediately, whereas the adjustment of ATP r...
Tissues such as skeletal and cardiac muscles must sustain very large-scale changes in ATP turnover r...
It is well known that exercise increases glucose transport into skeletal muscles. The regulation of ...
Isotope tracer infusion studies employing lactate, glucose, glycerol, and fatty acid isotope tracers...
It has long been appreciated that contraction of skeletal muscle results in the production of lactic...
The metabolic and biochemical factors involved in the regulation of fuel and pathway selection, at a...
Muscle is a major player in metabolism. It uses large amounts of glucose in the absorptive state and...
On the basis of experimental studies, the intracellular O(2) (iPo(2))-work rate (WR) relationship in...
The metabolic and biochemical adaptations which set the endurance limit in skeletal muscle and are m...
Direct assessments of the relative contribut ions of •th ~ major energy releasing pathways in human ...