1st Edition

Routledge Handbook of Sport and Exercise Systems Genetics

Edited By J. Timothy Lightfoot, Monica Hubal, Stephen Roth Copyright 2019
    542 Pages
    by Routledge

    542 Pages
    by Routledge

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    Technological advances over the last two decades have placed genetic research at the forefront of sport and exercise science. It provides potential answers to some of contemporary sport and exercise’s defining issues and throws up some of the area’s most challenging ethical questions, but to date, it has rested on a fragmented and disparate literature base. The Routledge Handbook of Sport and Exercise Systems Genetics constitutes the most authoritative and comprehensive reference in this critical area of study, consolidating knowledge and providing a framework for interpreting future research findings.

    Taking an approach which covers single gene variations, through genomics, epigenetics, and proteomics, to environmental and dietary influences on genetic mechanisms, the book is divided into seven sections. It examines state-of-the-art genetic methods, applies its approach to physical activity, exercise endurance, muscle strength, and sports performance, and discusses the ethical considerations associated with genetic research in sport and exercise.

    Made up of contributions from some of the world’s leading sport and exercise scientists and including chapters on important topical issues such as gene doping, gender testing, predicting sport performance and injury risk, and using genetic information to inform physical activity and health debates, the handbook is a vital addition to the sport and exercise literature. It is an important reference for any upper-level student, researcher, or practitioner working in the genetics of sport and exercise or exercise physiology, and crucial reading for any social scientist interested in the ethics of sport.

    Section 1: General Systems Genetics

    1. Why Study the Systems Genetics of Sport and Exercise?

    2. Expansion of Knowledge and Advances in Genetics for Quantitative Analyses

    3. Human Systems Genetic Modeling Used in Exercise

    4. The Translation of Systems Genetics of Exercise to Everyday Life

    Section 2: Systems Genetics of Physical Activity

    5. Is Physical Activity Regulated by Genetics? Evidence from Animal Models

    6. Is Physical Activity Regulated by Genetics? Evidence from Studies in Humans 

    7. The Evolution of Genetic Mechanisms Controlling Physical Activity

    8. Neurogenetics of Motivation for Physical Activity

    9. Peripheral Mechanisms Arising from Genetics that Regulate Activity

    10. Toxicant and Dietary Exposures as Unique Environmental Factors that Affect the Genetic Regulation of Activity

    Section 3: Systems Genetics of Exercise Endurance and Trainability

    11. The Evolution of the Human Endurance Phenotype 

    12. Endurance Phenotype Primer

    13. Heritability of Endurance Traits from Animal Research Models

    14. Heritability of Endurance Traits from Human Research Models

    15. Genetic Contributions to Cardiorespiratory Fitness

    16. Genetic Contributions to Mitochondrial Traits

    17. Angiotensin-Converting Enzyme and the Genomics of Endurance Performance

    Section 4: Systems Genetics of Muscle Mass, Strength, and Trainability

    18. Heritability of Muscle Size and Strength Traits

    19. Genetic Contributions to Muscle Strength

    20. Genetic Contributions to Skeletal Muscle Size

    21. Genetic Contributions to Neuroendocrine Response to Resistance Training

    22. Myostatin’s Role in Genetic Control of Muscle Size and Strength

    23. Alpha-Actinin-3’s Role in the Genetic Control of Muscle Strength and Performance

    Section 5: Systems Genetics of Sports Performance

    24. Summary Findings on Genetics and Sport Performance

    25. Using Elite Athletes as a Model for Genetic Research

    26. Twin and Family Studies in Sport Performance

    27. Sport Concussion Genetics

    28. Systems Genetic Factors Underlying Soft Tissue Injury

    29. Sex and Performance: Nature Versus Nurture

    Section 6: The Ethics of Systems Genetics in Exercise and Sport

    30. Race and Sports Performance

    31. The Scientific and Ethical Challenges of Using Genetic Information to Predict Sport Performance

    32. Gene Doping: Ethical Perspectives

    33. Enhancing Evolution: The Transhuman Case For Gene Doping

    34. The Ethics of Sex Testing in Sport

    Section 7: Conclusions

    35. Exercise Genomics, Epigenomics, and Transcriptomics: A Reality Check!

    36. Afterword - Closing the Loop: Observations and Conclusions


    J. Timothy Lightfoot is the Omar Smith Endowed Chair in Kinesiology and the Director of the Sydney and JL Huffines Institute for Sports Medicine and Human Performance at Texas A&M University in College Station, Texas (USA), and holds the rank of Professor of joint appointments on the Texas A&M Genetics Faculty and the Texas A&M Institute for Genome Sciences and Society. His research focus has been the genetic factors that regulate daily physical activity. He is an Associate Editor of Medicine and Science in Sports and Exercise. He was a founding member of the National Exercise Clinical Trials Network and is a Fellow of the American College of Sports Medicine.

    Monica J. Hubal is an Associate Professor of Kinesiology at Indiana University–Purdue University Indianapolis, USA. She is also an Adjunct Associate Professor of Cellular and Integrative Physiology, a research scientist in the Diabetes Translational Research Center and is affiliated with the Indiana Center for Musculoskeletal Health at the Indiana University School of Medicine. Her research focuses on understanding the systems biology of emergent cardiometabolic disease and the mechanisms driving response to various interventions. She was a principal investigator in the Research Center for Genetic Medicine at the Children’s National Medical Center. She is an Associate Editor for Medicine and Science in Sports and Exercise and Exercise and Sport Sciences Reviews and is a Fellow of the American College of Sports Medicine.

    Stephen M. Roth is a Professor of Kinesiology and Associate Dean at the University of Maryland in College Park, USA. He has researched the genetic aspects of exercise and sport for over 15 years. He is an author or co-author of over 90 peer-reviewed articles, book chapters, and books. He served as an Associate Editor for Medicine and Science in Sports and Exercise and Exercise and Sport Sciences Reviews. He is a Fellow of the National Academy of Kinesiology and the American College of Sports Medicine.

    "Recommended. Upper-division undergraduates through faculty and professionals." - Choice