Edward P. Debold, Ph.D.
Affiliations: | 2002 | Marquette University, Milwaukee, WI, United States |
Area:
Animal Physiology BiologyGoogle:
"Edward Debold"Parents
Sign in to add mentorRobert Hyde Fitts | grad student | 2002 | Marquette University | |
(The role of elevated levels of inorganic phosphate and hydrogen ions in muscular fatigue: A re-examination near physiological temperatures.) |
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Publications
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Liu S, Marang C, Woodward M, et al. (2023) Modeling Thick Filament Activation Suggests a Molecular Basis for Force Depression. Biorxiv : the Preprint Server For Biology |
Woodward M, Ostrander E, Jeong SP, et al. (2020) Positional Isomers of a Non-Nucleoside Substrate Differentially Affect Myosin Function. Biophysical Journal |
Arbore C, Pavone FS, Capitanio M, et al. (2020) Timing and Load-dependence of the Powerstroke and Pi-release in Skeletal Muscle Myosin Biophysical Journal. 118: 122a |
Unger M, Debold EP. (2019) Acidosis decreases the Ca-sensitivity of thin filaments by preventing the first actomyosin interaction. American Journal of Physiology. Cell Physiology |
Foster AD, Straight CR, Debold EP, et al. (2019) Skeletal Muscle Fatigue: Mechanisms And Mitigation At The Cellular And Molecular Levels In Older Adults Medicine & Science in Sports & Exercise. 51: 615 |
Woodward M, Debold EP. (2019) Mechanisms Through Which Agents Of Muscle Fatigue, Acidosis And Phosphate, Inhibit Muscle Myosin Function. Medicine & Science in Sports & Exercise. 51: 500 |
Scott B, Woodward M, Prum T, et al. (2019) Tropomyosin-based Effects Of Acidosis On Thin-filament Regulation During Muscle Fatigue Medicine & Science in Sports & Exercise. 51: 318 |
Mohran S, Woodward M, Castillo R, et al. (2019) dATP Reduces the Depressive Effect of Acidosis on Cardiac and Slow Twitch Skeletal Muscle Biophysical Journal. 116: 261a |
Jarvis K, Woodward M, Debold EP, et al. (2018) Acidosis affects muscle contraction by slowing the rates myosin attaches to and detaches from actin. Journal of Muscle Research and Cell Motility |
Woodward M, Debold EP. (2018) Acidosis and Phosphate Directly Reduce Myosin's Force-Generating Capacity Through Distinct Molecular Mechanisms. Frontiers in Physiology. 9: 862 |