Add to ORKGAlmost four decades since its initial discovery in brain (Schulman and Greengard, 1978), the multifunctional Ca2+ and calmodulin-dependent protein kinase II (CaMKII) has now emerged as a key signaling molecule in the heart. The isoform that predominates in heart, CaMKIId, directly regulates expression and function of several of the main cardiac ion channels and Ca2+ handling proteins (Bers and Grandi, 2009). CaMKII-dependent effects are thought to orchestrate many of the electrophysiologic and contractile adaptations to common cardiac stressors, such as rapid pacing, adrenergic stimulation, and oxidative challenge. In the context of disease, CaMKII has been shown to contribute to a remarkably wide variety of cardiac pathologies, including m...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Ca2+ dysregulation underlies many forms of cardiac stress and contributes significantly to arrhythmi...
Ca2+ dysregulation underlies many forms of cardiac stress and contributes significantly to arrhythmi...
Almost four decades since its initial discovery in brain (Schulman and Greengard, 1978), the multifu...
Almost four decades since its initial discovery in brain (Schulman and Greengard, 1978), the multifu...
The calcium-calmodulin dependent protein kinases (CaMKs) are a broadly expressed family of calcium-s...
Introduction: Calcium-calmodulin-dependent protein kinase II (CaMKII) has emerged as a central media...
Introduction: Calcium-calmodulin-dependent protein kinase II (CaMKII) has emerged as a central media...
Introduction: Calcium-calmodulin-dependent protein kinase II (CaMKII) has emerged as a central media...
Introduction: Calcium-calmodulin-dependent protein kinase II (CaMKII) has emerged as a central media...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Abstract: Understanding relationships between heart failure and arrhythmias, important causes of suf...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Ca2+ dysregulation underlies many forms of cardiac stress and contributes significantly to arrhythmi...
Ca2+ dysregulation underlies many forms of cardiac stress and contributes significantly to arrhythmi...
Almost four decades since its initial discovery in brain (Schulman and Greengard, 1978), the multifu...
Almost four decades since its initial discovery in brain (Schulman and Greengard, 1978), the multifu...
The calcium-calmodulin dependent protein kinases (CaMKs) are a broadly expressed family of calcium-s...
Introduction: Calcium-calmodulin-dependent protein kinase II (CaMKII) has emerged as a central media...
Introduction: Calcium-calmodulin-dependent protein kinase II (CaMKII) has emerged as a central media...
Introduction: Calcium-calmodulin-dependent protein kinase II (CaMKII) has emerged as a central media...
Introduction: Calcium-calmodulin-dependent protein kinase II (CaMKII) has emerged as a central media...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Abstract: Understanding relationships between heart failure and arrhythmias, important causes of suf...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Calcium dynamics is central in cardiac physiology, as the key event leading to the excitation-contra...
Ca2+ dysregulation underlies many forms of cardiac stress and contributes significantly to arrhythmi...
Ca2+ dysregulation underlies many forms of cardiac stress and contributes significantly to arrhythmi...