Epigenetics of Exercise and Sports Concepts, Methods, and Current Research Translational Epigenetics Series
Coordonnateur : Raleigh Stuart M
1. Exercise and sport: Definitions, classifications, and relevance to population health
2. Epigenetic processes—An overview
3. Methods to study exercise and sports epigenetics
Section II Current research and future perspectives
4. Nutrients, metabolism, and epigenetic change
5. Obesity epigenetics and exercise
6. Epigenetic change and different types of exercise
7. Exercise, epigenetics, and aging
8. Epigenetics, exercise, and the immune system
9. Alzheimer’s disease, epigenetics, and exercise
10. The current and future state of sports genomics
11. Epigenetic regulation and musculoskeletal injuries
12. Sports concussion and epigenetics
13. Epigenetics and doping in sports—The role of microRNAs
14. Future perspectives and concluding remarks
Human geneticists; human genomicists; translational researchers in genomic medicine, epigenetics, physiology, aging, biochemistry, sports medicine and exercise sciences, molecular biology; life science researchers; immunologists, oncologists; bioengineers; developmental biologists, physiologists
- Thoroughly examines fundamental concepts in exercise and sports epigenetics, methods for new research, and known impacts for human physiology, disease, and clinical outcomes
- Discusses exercise and sports epigenetics in relation to metabolism, obesity, aging, immunity, and neurological disease, concussion, and sports doping, among other topics
- Includes preliminary information on exercise epigenetics and covid-19 infection
- Features chapter contributions from international experts in the field
Date de parution : 07-2021
Ouvrage de 320 p.
19x23.3 cm
Mots-clés :
population health; epigenetics; epigenomics; translational epigenetics; epigenetic processes; exercise epigenetics; sports epigenetics; exercise and epigenetics; sports and epigenetics; nutrients and epigenetics; metabolism and epigenetics; obesity and epigenetics; epigenetic change; epigenetics and aging; epigenetics and ageing; epigenetics and immunity; epigenetics and Alzheimer’s disease; sports genetics; concussion and epigenetics; sports doping and epigenetics