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Exercise and Sport Sciences Reviews
|
August 16, 2016
Decreased Myofilament Calcium Sensitivity Plays a Significant Role in Muscle Fatigue
Edward P Debold
Medicine and Science in Sports and Exercise
|
February 15, 2012
Recent insights into the molecular basis of muscular fatigue
Edward P Debold
Frontiers in Physiology
|
September 22, 2015
Potential molecular mechanisms underlying muscle fatigue mediated by reactive oxygen and nitrogen species
Edward P Debold
Nature Nanotechnology
|
August 6, 2015
Biological machines: Molecular motor teamwork
Edward P Debold
Frontiers in Physiology
|
June 8, 2012
Recent insights into muscle fatigue at the cross-bridge level
Edward P Debold
Cytoskeleton (Hoboken, N.J.)
|
March 12, 2022
Recent insights into the relative timing of myosin's powerstroke and release of phosphate
Edward P Debold
Frontiers in Physiology
|
July 26, 2018
Acidosis and Phosphate Directly Reduce Myosin's Force-Generating Capacity Through Distinct Molecular Mechanisms
Mike Woodward, Edward P Debold
American Journal of Physiology. Cell Physiology
|
July 25, 2019
Acidosis decreases the Ca<sup>2+</sup> sensitivity of thin filaments by preventing the first actomyosin interaction
Matthew Unger, Edward P Debold
American Journal of Physiology. Cell Physiology
|
July 29, 2024
New insights into the cellular and molecular mechanisms of skeletal muscle fatigue: the Marion J. Siegman Award Lectureships
Edward P Debold, Håkan Westerblad
Scientific Reports
|
May 14, 2017
The molecular basis of thin filament activation: from single molecule to muscle
Thomas Longyear, Sam Walcott, Edward P Debold
Page
of 4
Search research articles
Search
Showing results (1-10 of 36) with videos related to
Sort By:
Page
of 4
Exercise and Sport Sciences Reviews
|
August 16, 2016
Decreased Myofilament Calcium Sensitivity Plays a Significant Role in Muscle Fatigue
Edward P Debold
Medicine and Science in Sports and Exercise
|
February 15, 2012
Recent insights into the molecular basis of muscular fatigue
Edward P Debold
Frontiers in Physiology
|
September 22, 2015
Potential molecular mechanisms underlying muscle fatigue mediated by reactive oxygen and nitrogen species
Edward P Debold
Nature Nanotechnology
|
August 6, 2015
Biological machines: Molecular motor teamwork
Edward P Debold
Frontiers in Physiology
|
June 8, 2012
Recent insights into muscle fatigue at the cross-bridge level
Edward P Debold
Cytoskeleton (Hoboken, N.J.)
|
March 12, 2022
Recent insights into the relative timing of myosin's powerstroke and release of phosphate
Edward P Debold
Frontiers in Physiology
|
July 26, 2018
Acidosis and Phosphate Directly Reduce Myosin's Force-Generating Capacity Through Distinct Molecular Mechanisms
Mike Woodward, Edward P Debold
American Journal of Physiology. Cell Physiology
|
July 25, 2019
Acidosis decreases the Ca<sup>2+</sup> sensitivity of thin filaments by preventing the first actomyosin interaction
Matthew Unger, Edward P Debold
American Journal of Physiology. Cell Physiology
|
July 29, 2024
New insights into the cellular and molecular mechanisms of skeletal muscle fatigue: the Marion J. Siegman Award Lectureships
Edward P Debold, Håkan Westerblad
Scientific Reports
|
May 14, 2017
The molecular basis of thin filament activation: from single molecule to muscle
Thomas Longyear, Sam Walcott, Edward P Debold
Page
of 4