The transmembrane peptide DWORF activates SERCA2a via dual mechanisms

Keyphrases

• Dual Mechanism 100%
• Upstream Open Reading Frame (uORF) 100%
• SERCA2a 100%
• Membrane-active Peptides 100%
• Phospholamban 70%
• SERCA 20%
• Sarcoplasmic Reticulum 20%
• Cell-based 10%
• Therapeutic Approaches 10%
• Heart Failure 10%
• Mechanistic Understanding 10%
• Structural Change 10%
• Myocyte Contractility 10%
• Ca2+ 10%
• Therapeutic Development 10%
• Protein-protein Interaction 10%
• Myocytes 10%
• Site-directed mutagenesis 10%
• Enzymatic Activity 10%
• Ca2+-ATPase 10%
• Calcium Level 10%
• Ca2+ Transport 10%
• Physiological Role 10%
• Binding Site 10%
• Muscle Relaxation 10%
• Diastole 10%
• Future Therapeutics 10%
• Cytosolic Ca2+ 10%
• Ca2+ Uptake 10%
• Transmembrane Protein 10%
• Biosensor System 10%
• HEK Cell Line 10%
• Heart Failure Research 10%
• FRET Biosensor 10%
• FRET Efficiency 10%
• DWORF 10%

Biochemistry, Genetics and Molecular Biology

• Phospholamban 100%
• Open Reading Frame 100%
• Fluorescence Resonance Energy Transfer 57%
• SERCA 28%
• Isoform 14%
• Enzyme Activity 14%
• Binding Site 14%
• Muscle Relaxation 14%
• Site-Directed Mutagenesis 14%
• Muscle Contractility 14%
• Cardiac Muscle Cell 14%
• ATPase 14%