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Mark E Anderson

Showing results (111-120 of 206) with videos related to

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International Journal of Cardiology|October 4, 2015
Ryanodine receptor phosphorylation by CaMKII promotes spontaneous Ca(2+) release events in a rodent model of early stage diabetes: The arrhythmogenic substrateLeandro Sommese, Carlos A Valverde, Paula Blanco, et al.
Circulation Research|June 26, 2010
T-tubule remodeling during transition from hypertrophy to heart failureSheng Wei, Ang Guo, Biyi Chen, et al.
Journal of Neurophysiology|February 17, 2012
β2-Adrenergic receptor supports prolonged theta tetanus-induced LTPHai Qian, Lucas Matt, Mingxu Zhang, et al.
Journal of Molecular and Cellular Cardiology|July 17, 2012
CaMKII effects on inotropic but not lusitropic force frequency responses require phospholambanYiming Wu, Elizabeth D Luczak, Eun-Jeong Lee, et al.
Nature Communications|March 2, 2025
HCN4 channels sense temperature and determine heart rate responses to heatYuejin Wu, Qinchuan Wang, Jonathan Granger, et al.
Journal of Molecular and Cellular Cardiology|March 29, 2011
Exercise-induced expression of cardiac ATP-sensitive potassium channels promotes action potential shortening and energy conservationLeonid V Zingman, Zhiyong Zhu, Ana Sierra, et al.
Annual Review of Pharmacology and Toxicology|August 16, 2022
CaMKII as a Therapeutic Target in Cardiovascular DiseaseOscar E Reyes Gaido, Lubika J Nkashama, Kate L Schole, et al.
Circulation|September 5, 2002
Calmodulin kinase II and arrhythmias in a mouse model of cardiac hypertrophyYuejin Wu, Joel Temple, Rong Zhang, et al.
JCI Insight|February 15, 2017
Mitochondrial CaMKII inhibition in airway epithelium protects against allergic asthmaSara C Sebag, Olha M Koval, John D Paschke, et al.
Proceedings of the National Academy of Sciences of the United States of America|October 9, 2013
βIV-Spectrin and CaMKII facilitate Kir6.2 regulation in pancreatic beta cellsCrystal F Kline, Patrick J Wright, Olha M Koval, et al.
Pageof 21

Showing results (111-120 of 206) with videos related to

Sort By:
Pageof 21
International Journal of Cardiology|October 4, 2015
Ryanodine receptor phosphorylation by CaMKII promotes spontaneous Ca(2+) release events in a rodent model of early stage diabetes: The arrhythmogenic substrateLeandro Sommese, Carlos A Valverde, Paula Blanco, et al.
Circulation Research|June 26, 2010
T-tubule remodeling during transition from hypertrophy to heart failureSheng Wei, Ang Guo, Biyi Chen, et al.
Journal of Neurophysiology|February 17, 2012
β2-Adrenergic receptor supports prolonged theta tetanus-induced LTPHai Qian, Lucas Matt, Mingxu Zhang, et al.
Journal of Molecular and Cellular Cardiology|July 17, 2012
CaMKII effects on inotropic but not lusitropic force frequency responses require phospholambanYiming Wu, Elizabeth D Luczak, Eun-Jeong Lee, et al.
Nature Communications|March 2, 2025
HCN4 channels sense temperature and determine heart rate responses to heatYuejin Wu, Qinchuan Wang, Jonathan Granger, et al.
Journal of Molecular and Cellular Cardiology|March 29, 2011
Exercise-induced expression of cardiac ATP-sensitive potassium channels promotes action potential shortening and energy conservationLeonid V Zingman, Zhiyong Zhu, Ana Sierra, et al.
Annual Review of Pharmacology and Toxicology|August 16, 2022
CaMKII as a Therapeutic Target in Cardiovascular DiseaseOscar E Reyes Gaido, Lubika J Nkashama, Kate L Schole, et al.
Circulation|September 5, 2002
Calmodulin kinase II and arrhythmias in a mouse model of cardiac hypertrophyYuejin Wu, Joel Temple, Rong Zhang, et al.
JCI Insight|February 15, 2017
Mitochondrial CaMKII inhibition in airway epithelium protects against allergic asthmaSara C Sebag, Olha M Koval, John D Paschke, et al.
Proceedings of the National Academy of Sciences of the United States of America|October 9, 2013
βIV-Spectrin and CaMKII facilitate Kir6.2 regulation in pancreatic beta cellsCrystal F Kline, Patrick J Wright, Olha M Koval, et al.
Pageof 21