Nucleotide activation of the Ca-ATPase

Keyphrases

• SERCA 100%
• Ca2+-ATPase 100%
• Fluorescein Isothiocyanate 70%
• Monophosphate 60%
• Ca2+ 30%
• Nucleotide Binding Site 30%
• Molecular Modeling 20%
• Free Enzyme 20%
• Proteolysis 20%
• Solvent Accessible Surface Area 20%
• Phosphoenzyme 20%
• Co-conformations 20%
• Fluorescence Lifetime 10%
• Structural Dynamics 10%
• High Energy 10%
• Allostery 10%
• Anisotropy 10%
• Hydrolysis 10%
• Sarcoplasmic Reticulum 10%
• Fluorescence Spectroscopy 10%
• Substrate Binding 10%
• Fluorescence Quenching 10%
• Fluorescent Probe 10%
• Ca2+ Binding 10%
• Fluorescence Anisotropy 10%
• Direct Activation 10%
• ATP Binding 10%
• Fast-twitch muscle 10%
• Limited Proteolysis 10%
• Phosphoryl Group 10%
• Time-resolved Spectroscopy 10%
• Active Site Dynamics 10%
• Pseudosubstrate 10%
• Sub-nanosecond 10%
• Enhanced Dynamics 10%
• SERCA1 10%
• Probe Dynamics 10%
• Reverse Mode 10%
• Sarcoplasmic Reticulum Vesicles 10%

Biochemistry, Genetics and Molecular Biology

• SERCA 100%
• ATPase 100%
• Fluorescein Isothiocyanate 70%
• Dynamics 50%
• Enzyme 30%
• Nucleotide Binding Site 30%
• Proteolysis 30%
• Conformation 20%
• Anisotropy 20%
• Molecular Model 20%
• Accessible Surface Area 20%
• Adenosine Triphosphate 20%
• Active Site 10%
• Isoform 10%
• Allosteric Regulation 10%
• Crystal Structure 10%
• Enzymatic Hydrolysis 10%
• Fluorescent Probes 10%
• Lifespan 10%
• Fast Muscle 10%
• Fluorescence Spectroscopy 10%

Medicine and Dentistry

• Adenosine Triphosphatase (Calcium) 100%
• Fluorescein Isothiocyanate 100%
• Calcium Ion 25%
• Protein Degradation 25%
• Nucleotide Binding Site 25%
• Accessible Surface Area 16%
• Molecular Model 16%
• Adenosine Triphosphate 16%
• Lifespan 8%
• Sarcoplasmic reticulum 8%
• Fast Muscle 8%
• Sarcoplasmic Reticulum Calcium Transporting Adenosine Triphosphatase 8%
• Spectrofluorometry 8%
• Time Resolved Spectroscopy 8%
• Fluorescent Dye 8%
• Enzymatic Hydrolysis 8%
• Allostery 8%