Biochemistry of exercise X /

Biochemistry of exercise X /

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Bibliographic Details
Imprint:Champaign, IL : Human Kinetics, c1999.
Description:xiv, 337 p. : ill. ; 24 cm.
Language:English
Subject:
Exercise -- Physiological aspects -- Congresses.
Muscles -- Metabolism -- Congresses.
Exercise -- Physiological aspects.
Muscles -- Metabolism.
Conference papers and proceedings.
Format: Print Book
URL for this record:http://pi.lib.uchicago.edu/1001/cat/bib/3611785
Hidden Bibliographic Details
Varying Form of Title:Biochemistry of exercise 10
Biochemistry of exercise ten
Other authors / contributors:Hargreaves, Mark, 1961-
Thompson, Martin, PhD.
International Biochemistry of Exercise Conference (10th : 1997 : Sydney, Australia)
ISBN:0880117583
Notes:The 10th International Biochemistry of Exercise Conference, on which this volume is based, was held in Sydney, Australia on July 15-19, 1997.
Includes bibliographical references.
committed to retain 20170930 20421213 HathiTrust
Table of Contents:
  • Conference Organization
  • Contributors
  • Preface
  • Acknowledgments
  • Conference Welcome: Jacques R. Poortmans
  • Credits
  • Part I. Keynote Lectures
  • Chapter 1. Mind Over Muscle: The Role of the CNS in Human Muscle Performance
  • Chapter 2. Beyond Exercise Biochemistry 2000: A New Golden Age
  • Part II. Signaling
  • Chapter 3. Intracellular Signaling Pathways in Contracting Skeletal Muscle
  • Chapter 4. Interaction Between Blood Flow, Metabolism, and Exercise
  • Chapter 5. Neuroendocrine Regulation During Exercise
  • Chapter 6. Muscle Membranes, Diet, and Exercise
  • Part III. Excitation-Contraction
  • Chapter 7. Role of the Skeletal Muscle Na+, K+-Pump During Exercise
  • Chapter 8. Excitation-Contraction Coupling and Fatigue in Skeletal Muscle
  • Chapter 9. Efficiency of Energy Conversion by Muscle and Its Relation to Efficiency During Locomotion
  • Chapter 10. Factors Limiting ATPase Activity in Skeletal Muscle
  • Chapter 11. Failure of Calcium Release in Muscle Fatigue
  • Chapter 12. The Role of the pH and Inorganic Phosphate Ions in Skeletal Muscle Fatigue
  • Chapter 13. Redox Modulation of Skeletal Muscle Contraction by Reactive Oxygen and Nitric Oxide
  • Part IV. Metabolism
  • Chapter 14. Glucose Transport and Transporters in Skeletal Muscle
  • Chapter 15. Lactate Exchange and pH Regulation in Skeletal Muscle
  • Chapter 16. Fatty Acid Binding Proteins and Muscle Lipid Metabolism
  • Chapter 17. Skeletal Muscle Amino Acid Transport and Metabolism
  • Chapter 18. Molecular Biology of the Glucose Transporter, GLUT-4
  • Chapter 19. Biochemical Regulation of Carbohydrate-Lipid Interaction in Skeletal Muscle During Low and Moderate Intensity Exercise
  • Chapter 20. Fat Oxidation During Exercise: Role of Lipolysis, FFA Availability, and Glycolytic Flux
  • Chapter 21. Energy Metabolism of Skeletal Muscle Fiber Types and the Metabolic Basis of Fatigue in Humans
  • Part V. Adaption
  • Chapter 22. Contractile Activity and Skeletal Muscle Gene Expression
  • Chapter 23. Vascular Remodeling Induced by Muscle Activity
  • Chapter 24. Contributions of Muscle Activity Patterns
  • Chapter 25. Co-expression of SP72 and Type I MHC in Rat Plantaris: Interaction of Thyroid Hormone and Functional Overload
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