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JCI Insight
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December 5, 2017
Increased Ca2+ signaling through CaV1.2 promotes bone formation and prevents estrogen deficiency-induced bone loss
Chike Cao, Yinshi Ren, Adam S Barnett, et al.
Proceedings of the National Academy of Sciences of the United States of America
|
October 2, 2015
STIM1-Ca2+ signaling modulates automaticity of the mouse sinoatrial node
Hengtao Zhang, Albert Y Sun, Jong J Kim, et al.
The Journal of Clinical Investigation
|
November 14, 2018
Cardiac CaV1.2 channels require β subunits for β-adrenergic-mediated modulation but not trafficking
Lin Yang, Alexander Katchman, Jared Kushner, et al.
Plos One
|
September 4, 2014
A CACNA1C variant associated with reduced voltage-dependent inactivation, increased CaV1.2 channel window current, and arrhythmogenesis
Jessica A Hennessey, Nicole J Boczek, Yong-Hui Jiang, et al.
Research Square
|
December 3, 2025
Timothy Syndrome and CACNA1C-Related Disorder: First International Language and Management Guidelines Consensus Statement
Jack F G Underwood, Katherine W Timothy, Holly Tyroll, et al.
European Journal of Human Genetics : EJHG
|
July 9, 2026
Timothy syndrome and CACNA1C-Related Disorder: first international language and management guidelines consensus statement
Jack F G Underwood, Katherine W Timothy, Holly Tyroll, et al.
Circulation
|
May 13, 2024
Augmented Cardiac Inotropy by Phosphodiesterase Inhibition Requires Phosphorylation of Rad and Increased Calcium Current
Alexander N Katchman, Sergey I Zakharov, Michael S Bohnen, et al.
Nature
|
January 24, 2020
Mechanism of adrenergic Ca<sub>V</sub>1.2 stimulation revealed by proximity proteomics
Guoxia Liu, Arianne Papa, Alexander N Katchman, et al.
JCI Insight
|
September 2, 2020
Fibroblast growth factor homologous factors tune arrhythmogenic late NaV1.5 current in calmodulin binding-deficient channels
Jeffrey Abrams, Daniel Roybal, Nourdine Chakouri, et al.
Circulation Research
|
November 7, 2025
FGF13 Regulates VGSC-Independent Cardiomyocyte Impulse Propagation via Cx43 Trafficking
Lala Tanmoy Das, Mattia Malvezzi, Aravind R Gade, et al.
Page
of 12
Search research articles
Search
Showing results (91-100 of 117) with videos related to
Sort By:
Page
of 12
JCI Insight
|
December 5, 2017
Increased Ca2+ signaling through CaV1.2 promotes bone formation and prevents estrogen deficiency-induced bone loss
Chike Cao, Yinshi Ren, Adam S Barnett, et al.
Proceedings of the National Academy of Sciences of the United States of America
|
October 2, 2015
STIM1-Ca2+ signaling modulates automaticity of the mouse sinoatrial node
Hengtao Zhang, Albert Y Sun, Jong J Kim, et al.
The Journal of Clinical Investigation
|
November 14, 2018
Cardiac CaV1.2 channels require β subunits for β-adrenergic-mediated modulation but not trafficking
Lin Yang, Alexander Katchman, Jared Kushner, et al.
Plos One
|
September 4, 2014
A CACNA1C variant associated with reduced voltage-dependent inactivation, increased CaV1.2 channel window current, and arrhythmogenesis
Jessica A Hennessey, Nicole J Boczek, Yong-Hui Jiang, et al.
Research Square
|
December 3, 2025
Timothy Syndrome and CACNA1C-Related Disorder: First International Language and Management Guidelines Consensus Statement
Jack F G Underwood, Katherine W Timothy, Holly Tyroll, et al.
European Journal of Human Genetics : EJHG
|
July 9, 2026
Timothy syndrome and CACNA1C-Related Disorder: first international language and management guidelines consensus statement
Jack F G Underwood, Katherine W Timothy, Holly Tyroll, et al.
Circulation
|
May 13, 2024
Augmented Cardiac Inotropy by Phosphodiesterase Inhibition Requires Phosphorylation of Rad and Increased Calcium Current
Alexander N Katchman, Sergey I Zakharov, Michael S Bohnen, et al.
Nature
|
January 24, 2020
Mechanism of adrenergic Ca<sub>V</sub>1.2 stimulation revealed by proximity proteomics
Guoxia Liu, Arianne Papa, Alexander N Katchman, et al.
JCI Insight
|
September 2, 2020
Fibroblast growth factor homologous factors tune arrhythmogenic late NaV1.5 current in calmodulin binding-deficient channels
Jeffrey Abrams, Daniel Roybal, Nourdine Chakouri, et al.
Circulation Research
|
November 7, 2025
FGF13 Regulates VGSC-Independent Cardiomyocyte Impulse Propagation via Cx43 Trafficking
Lala Tanmoy Das, Mattia Malvezzi, Aravind R Gade, et al.
Page
of 12