Molecular Exercise Physiology
-10%
portes grátis
Molecular Exercise Physiology
An Introduction
Sharples, Adam; Morton, James; Wackerhage, Henning
Taylor & Francis Ltd
05/2022
344
Dura
Inglês
9781138086876
15 a 20 dias
820
Descrição não disponível.
1. Introduction to molecular exercise physiology
2. Methods in molecular exercise physiology
3. Genetics and exercise: an introduction
4. Genetics of muscle mass and strength
5. Genetics of endurance
6. Epigenetics of exercise
7. Signal transduction and exercise
8. Molecular adaptation to resistance exercise
9. Molecular adaptations to endurance exercise and skeletal muscle fibre plasticity
10. Molecular sport nutrition
11. Altitude, temperature, circadiun rhythms and exercise
12. Cancer and exercise
13. Satellite cells and exercise
2. Methods in molecular exercise physiology
3. Genetics and exercise: an introduction
4. Genetics of muscle mass and strength
5. Genetics of endurance
6. Epigenetics of exercise
7. Signal transduction and exercise
8. Molecular adaptation to resistance exercise
9. Molecular adaptations to endurance exercise and skeletal muscle fibre plasticity
10. Molecular sport nutrition
11. Altitude, temperature, circadiun rhythms and exercise
12. Cancer and exercise
13. Satellite cells and exercise
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
adaptation to endurance exercise;adaptation to resistance training;exercise adaptation;exercise and cancer;exercise and cardiovascular disease;exercise and metabolic disease;exercise physiology;genetics and exercise;genetics of cancer;genetics of cardiovascular disease;genetics of endurance;genetics of metabolic disease;genetics of muscle mass;genetics of strength;Henning Wackerhage;human evolution and exercise;molecular adaptation;molecular exercise physiology;molecular mechanisms of ageing;molecular mechanisms of development;molecular nutrition;physical activity and chronic disease;physical activity and health;Peroxisome Proliferator Activated Receptor Delta;signal transduction;DNA Sequence Variant;DNA Methylation;DNA Variant;ATP Turnover;Satellite Cells;Satellite Cell Number;Activated Satellite Cells;P38 MAPK;Increase AMPK Activity;Myosin Heavy Chain;Resistance Exercise;E3 Ligase;Endurance Exercise;Endurance Trainability;ACTN3 R577X;Satellite Cell Function;Affect Muscle Mass;ECM Protein;Myostatin mRNA;Clock Gene;AMPK Activity;Satellite Cell Pool;Muscle Glucose Uptake
1. Introduction to molecular exercise physiology
2. Methods in molecular exercise physiology
3. Genetics and exercise: an introduction
4. Genetics of muscle mass and strength
5. Genetics of endurance
6. Epigenetics of exercise
7. Signal transduction and exercise
8. Molecular adaptation to resistance exercise
9. Molecular adaptations to endurance exercise and skeletal muscle fibre plasticity
10. Molecular sport nutrition
11. Altitude, temperature, circadiun rhythms and exercise
12. Cancer and exercise
13. Satellite cells and exercise
2. Methods in molecular exercise physiology
3. Genetics and exercise: an introduction
4. Genetics of muscle mass and strength
5. Genetics of endurance
6. Epigenetics of exercise
7. Signal transduction and exercise
8. Molecular adaptation to resistance exercise
9. Molecular adaptations to endurance exercise and skeletal muscle fibre plasticity
10. Molecular sport nutrition
11. Altitude, temperature, circadiun rhythms and exercise
12. Cancer and exercise
13. Satellite cells and exercise
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
adaptation to endurance exercise;adaptation to resistance training;exercise adaptation;exercise and cancer;exercise and cardiovascular disease;exercise and metabolic disease;exercise physiology;genetics and exercise;genetics of cancer;genetics of cardiovascular disease;genetics of endurance;genetics of metabolic disease;genetics of muscle mass;genetics of strength;Henning Wackerhage;human evolution and exercise;molecular adaptation;molecular exercise physiology;molecular mechanisms of ageing;molecular mechanisms of development;molecular nutrition;physical activity and chronic disease;physical activity and health;Peroxisome Proliferator Activated Receptor Delta;signal transduction;DNA Sequence Variant;DNA Methylation;DNA Variant;ATP Turnover;Satellite Cells;Satellite Cell Number;Activated Satellite Cells;P38 MAPK;Increase AMPK Activity;Myosin Heavy Chain;Resistance Exercise;E3 Ligase;Endurance Exercise;Endurance Trainability;ACTN3 R577X;Satellite Cell Function;Affect Muscle Mass;ECM Protein;Myostatin mRNA;Clock Gene;AMPK Activity;Satellite Cell Pool;Muscle Glucose Uptake