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All Outputs (2)

Calcium Homeostasis in Myogenic Differentiation Factor 1 (MyoD)-Transformed, Virally-Transduced, Skin-Derived Equine Myotubes (2014)
Journal Article
Fernandez-Fuente, M., Terracciano, C. M., Martin-Duque, P., Brown, S. C., Vassaux, G., & Piercy, R. J. (2014). Calcium Homeostasis in Myogenic Differentiation Factor 1 (MyoD)-Transformed, Virally-Transduced, Skin-Derived Equine Myotubes. PLoS ONE, 9(8), e105971. https://doi.org/10.1371/journal.pone.0105971

Dysfunctional skeletal muscle calcium homeostasis plays a central role in the pathophysiology of several human and animal skeletal muscle disorders, in particular, genetic disorders associated with ryanodine receptor 1 (RYR1) mutations, such as malig... Read More about Calcium Homeostasis in Myogenic Differentiation Factor 1 (MyoD)-Transformed, Virally-Transduced, Skin-Derived Equine Myotubes.

Adenovirus-mediated expression of Myogenic Differentiation Factor 1 (MyoD) in equine and human dermal fibroblasts enables their conversion to caffeine-sensitive myotubes (2014)
Journal Article
Fernandez-Fuente, M., Martin-Duque, P., Vassaux, G., Brown, S. C., Muntoni, F., Terracciano, C. M., & Piercy, R. J. (2014). Adenovirus-mediated expression of Myogenic Differentiation Factor 1 (MyoD) in equine and human dermal fibroblasts enables their conversion to caffeine-sensitive myotubes. Neuromuscular Disorders, 24(3), 250-258. https://doi.org/10.1016/j.nmd.2013.11.009

Several human and animal myopathies, such as malignant hyperthermia (MH), central core disease and equine recurrent exertional rhabdomyolysis (RER) are confirmed or thought to be associated with dysfunction of skeletal muscle calcium regulation. For... Read More about Adenovirus-mediated expression of Myogenic Differentiation Factor 1 (MyoD) in equine and human dermal fibroblasts enables their conversion to caffeine-sensitive myotubes.