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Simvastatin Activates Single Skeletal RyR1 Channels but Exerts More Complex Regulation of the Cardiac Isoform, RyR2

(2016) In Biophysical Journal 110(3).
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Chicago
Venturi, Elisa , Katja Witschas, Sabine Lotteau, Emma Steer, Derek Steele, Sarah Calaghan, and Rebecca Sitsapesan. 2016. “Simvastatin Activates Single Skeletal RyR1 Channels but Exerts More Complex Regulation of the Cardiac Isoform, RyR2.” In , 110:266a. Elsevier.
APA
Venturi, Elisa , Witschas, K., Lotteau, S., Steer, E., Steele, D., Calaghan, S., & Sitsapesan, R. (2016). Simvastatin Activates Single Skeletal RyR1 Channels but Exerts More Complex Regulation of the Cardiac Isoform, RyR2 (Vol. 110, p. 266a). Presented at the 2016 Annual Meeting of the Biophysical Society, Elsevier.
Vancouver
1.
Venturi E, Witschas K, Lotteau S, Steer E, Steele D, Calaghan S, et al. Simvastatin Activates Single Skeletal RyR1 Channels but Exerts More Complex Regulation of the Cardiac Isoform, RyR2. Elsevier; 2016. p. 266a.
MLA
Venturi, Elisa et al. “Simvastatin Activates Single Skeletal RyR1 Channels but Exerts More Complex Regulation of the Cardiac Isoform, RyR2.” Vol. 110. Elsevier, 2016. 266a. Print.
@inproceedings{8609597,
  articleno    = {1318-Pos},
  author       = {Venturi, Elisa  and Witschas, Katja and Lotteau, Sabine  and Steer, Emma  and Steele, Derek  and Calaghan, Sarah  and Sitsapesan, Rebecca },
  location     = {Los Angeles, California, US},
  number       = {3},
  publisher    = {Elsevier},
  title        = {Simvastatin Activates Single Skeletal RyR1 Channels but Exerts More Complex Regulation of the Cardiac Isoform, RyR2},
  volume       = {110},
  year         = {2016},
}