Acidosis decreases the Ca2+ sensitivity of thin filaments by preventing the first actomyosin interaction
M Unger, EP Debold - American Journal of Physiology-Cell …, 2019 - journals.physiology.org
Intracellular acidosis is a putative agent of skeletal muscle fatigue, in part, because it
depresses the calcium (Ca2+) sensitivity of the myofilaments. However, the molecular …
depresses the calcium (Ca2+) sensitivity of the myofilaments. However, the molecular …
Acidosis decreases the Ca2+ sensitivity of thin filaments by preventing the first actomyosin interaction.
M Unger, EP Debold - American Journal of physiology. Cell …, 2019 - europepmc.org
Intracellular acidosis is a putative agent of skeletal muscle fatigue, in part, because it
depresses the calcium (Ca 2+) sensitivity of the myofilaments. However, the molecular …
depresses the calcium (Ca 2+) sensitivity of the myofilaments. However, the molecular …
[PDF][PDF] Acidosis decreases the Ca2 sensitivity of thin filaments by preventing the first actomyosin interaction
M Unger, EP Debold - Am J Physiol Cell Physiol, 2019 - scholar.archive.org
In response to intense contractile activity the maximal isometric force of muscle declines to
50% or less of the rested value within 5 min, a phenomenon that characterizes fatigue (4 …
50% or less of the rested value within 5 min, a phenomenon that characterizes fatigue (4 …
Acidosis decreases the Ca2+ sensitivity of thin filaments by preventing the first actomyosin interaction
M Unger, EP Debold - American journal of physiology …, 2019 - pubmed.ncbi.nlm.nih.gov
Intracellular acidosis is a putative agent of skeletal muscle fatigue, in part, because it
depresses the calcium (Ca 2+) sensitivity of the myofilaments. However, the molecular …
depresses the calcium (Ca 2+) sensitivity of the myofilaments. However, the molecular …