Defective Gating and Proteostasis of Human ClC-1 Chloride Channel: Molecular Pathophysiology of Myotonia Congenita

Keyphrases

• Proteostasis 100%
• ClC Channels 100%
• Molecular Pathophysiology 100%
• ClC-1 100%
• Myotonia Congenita 100%
• Myotonia 57%
• Inheritance Pattern 42%
• Protein Homeostasis 42%
• Skeletal muscle 28%
• Skeletal Disorders 28%
• Chloride Channel 28%
• CLCN1 Gene 28%
• Quality Control 14%
• Autosomal Dominant 14%
• Protein Sequence 14%
• Membrane Potential 14%
• Excitability 14%
• Voltage Dependence 14%
• Channel Gating 14%
• Controlling Factors 14%
• Regulatory Molecules 14%
• Loss Function 14%
• Molecular Structure 14%
• Cause of Disease 14%
• Membrane Protein 14%
• Depolarization 14%
• Novel Therapeutic Targets 14%
• Plasma Membrane 14%
• Molecular Chaperone 14%
• Post-translational Modification 14%
• Dominant Negative Effect 14%
• Pathological Conditions 14%
• Biogenesis 14%
• Endoplasmic Reticulum 14%
• Ion Permeation 14%
• Protein Quality Control 14%
• Protein Turnover 14%
• Membrane Excitability 14%
• Open Probability 14%
• Membrane Trafficking 14%
• Endoplasmic Reticulum Quality Control 14%
• Dominant Inheritance 14%
• Permeation Mechanism 14%
• Delayed Relaxation 14%
• Muscle Membrane 14%
• Light Novel 14%
• Voluntary muscle Contraction 14%
• Membrane Turnover 14%

Biochemistry, Genetics and Molecular Biology

• Protein Homeostasis 100%
• Chloride Channel 100%
• Myotonia congenita 100%
• Skeletal Muscle 80%
• Quality Control 60%
• Inheritance 60%
• Excitability 40%
• CLCN1 40%
• Autosomal Dominant Inheritance 20%
• Peptide Sequence 20%
• Membrane Potential 20%
• Electric Potential 20%
• Chemical Structure 20%
• Ion Transport 20%
• Illumination 20%
• Cell Membrane 20%
• Channel Gating 20%
• Posttranslational Modification 20%
• Biogenesis 20%
• Muscle Contraction 20%
• Protein Degradation 20%
• Dominant Inheritance 20%
• Muscle Fiber Membrane 20%
• Membrane Trafficking 20%
• Chaperone Protein 20%

Neuroscience

• Skeletal Muscle 100%
• Chloride Channel 100%
• Myotonia congenita 100%
• Excitability 50%
• CLCN1 50%
• Endoplasmic Reticulum 50%
• Membrane Potential 25%
• Amino Acid Sequence 25%
• Cell Membrane 25%
• Channel Gating 25%
• Posttranslational Modification 25%
• Muscle Disorder 25%
• Chaperone 25%
• Ion Transport 25%
• Muscle Fiber Membrane 25%