Physiology and pathophysiology of CLC-1: Mechanisms of a chloride channel disease, myotonia

Keyphrases

• Pathophysiology 100%
• Chloride Channel 100%
• Myotonia 100%
• ClC-1 100%
• Skeletal muscle 50%
• Inheritance Pattern 50%
• Protein Sequence 25%
• Voltage Dependence 25%
• Genetic Disease 25%
• Protein Synthesis 25%
• Physiological Function 25%
• Cellular Mechanisms 25%
• Protein Trafficking 25%
• Channel Protein 25%
• Chloride Ion 25%
• Gating Mechanism 25%
• Autosomal Recessive 25%
• Dominant Negative Effect 25%
• Family Play 25%
• Pathophysiological Mechanisms 25%
• Protein Membrane 25%
• Transporter Family 25%
• Membrane Trafficking 25%
• ClC Channels 25%
• Myotonia Congenita 25%
• Proton Ions 25%

Biochemistry, Genetics and Molecular Biology

• Chloride Channel 100%
• Skeletal Muscle 66%
• Inheritance 66%
• Peptide Sequence 33%
• Electric Potential 33%
• Protein Targeting 33%
• Channel Protein 33%
• Protein Biosynthesis 33%
• Autosomal Recessive Inheritance 33%
• Genetic Disorder 33%
• Myotonia congenita 33%
• Membrane Trafficking 33%

Neuroscience

• Chloride Channel 100%
• Skeletal Muscle 66%
• Protein Targeting 33%
• Amino Acid Sequence 33%
• Protein Biosynthesis 33%
• Myotonia congenita 33%