Keyphrases
Skeletal muscle
100%
Pannexin Channels
100%
Functional Role
100%
Pannexin 1 (Panx1)
100%
Connexin Channels
100%
Connexin
71%
Myofiber
57%
Pathological Conditions
28%
Membrane Channels
28%
Denervation
28%
Spinal Cord Injury
28%
Atrophy
14%
Injury Levels
14%
Myogenic Differentiation
14%
Inflammatory Cytokines
14%
Inflammation
14%
Myogenesis
14%
Myoblast
14%
Connexin 43 (Cx43)
14%
Hemichannel
14%
Gap Junction Channel
14%
Myofiber Degeneration
14%
Adjacent Cell
14%
Muscle Wasting
14%
Metabolic Response
14%
Myotubes
14%
Synaptic Dysfunction
14%
Extracellular Space
14%
Non-selective
14%
Sarcolemma
14%
Selective Membrane
14%
Cx45
14%
P2X7 Receptor (P2X7R)
14%
Transient Receptor Potential
14%
Adenosine Triphosphate
14%
Glucose Uptake
14%
Denervated
14%
Cell-cell Communication
14%
Innervation
14%
Muscle Contraction
14%
Potentiation
14%
Myogenic Precursor Cells
14%
Potential Type
14%
Skeletal muscle Plasticity
14%
Denervation Atrophy
14%
Adenosine Triphosphate Production
14%
Neuroscience
Skeletal Muscle
100%
Pannexin
100%
Gap Junction Protein
100%
Denervation
42%
Adenosine Triphosphate
28%
Membrane Channel
28%
Spinal Cord Injury
28%
Metabolic Pathway
14%
Epileptic Absence
14%
Myoblast
14%
Gap Junction
14%
Muscle Atrophy
14%
Purinergic P2X7 Receptor
14%
Sarcolemma
14%
Receptor Potential
14%
Cell Communication
14%
Glucose Transport
14%
Innervation
14%
Medicine and Dentistry
Skeletal Muscle
100%
Gap Junction Protein
100%
Denervation
57%
Adenosine Triphosphate
28%
Membrane Channel
28%
Spinal Cord Injury
28%
Precursor
14%
Epileptic Absence
14%
Muscle Atrophy
14%
Gap Junction
14%
Myotube
14%
Inflammatory Cytokine
14%
Muscle Development
14%
Myoblast
14%
Muscle Contraction
14%
Glucose Uptake
14%
Extracellular Space
14%
Innervation
14%
Metabolism
14%
Cell Communication
14%
Receptor Potential
14%
Sarcolemma
14%
Purinergic P2X7 Receptor
14%
Biochemistry, Genetics and Molecular Biology
Skeletal Muscle
100%
Pannexin
100%
Connexin
100%
Adenosine Triphosphate
28%
Membrane Channel
28%
Wild Type
14%
Metabolic Pathway
14%
Mouse
14%
Myogenesis
14%
Precursor
14%
Sarcolemma
14%
Receptor Potential
14%
Glucose Transport
14%
Innervation
14%
Cell Communication
14%
Inflammatory Cytokine
14%
Muscle Contraction
14%