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Neuronal Differentiation
Neuronal Differentiation
Translocator protein (TSPO 18 kDa) is expressed by neural stem and neuronal precursor cells
Neuronal Differentiation / Translocator Protein
Selective dopaminergic vulnerability: 3,4-dihydroxyphenylacetaldehyde targets mitochondria
Membrane Proteins / Enzyme Inhibitors / Mitochondria / Ion Channels / Dopamine / Cell Differentiation / Animals / Male / Cell Death / Substantia nigra / Cyclosporine / Respiration / Neuronal Differentiation / Mitochondrial dysfunction / Rats / Disease Progression / Mechanism of action / Nerve Growth Factor / Trifluoperazine / Monoamine oxidase / Parkinson Disease / Biochemistry and cell biology / Cell Differentiation / Animals / Male / Cell Death / Substantia nigra / Cyclosporine / Respiration / Neuronal Differentiation / Mitochondrial dysfunction / Rats / Disease Progression / Mechanism of action / Nerve Growth Factor / Trifluoperazine / Monoamine oxidase / Parkinson Disease / Biochemistry and cell biology
Selective dopaminergic vulnerability: 3,4-dihydroxyphenylacetaldehyde targets mitochondria
Membrane Proteins / Enzyme Inhibitors / Mitochondria / Ion Channels / Dopamine / Cell Differentiation / Animals / Male / Cell Death / Substantia nigra / Cyclosporine / Respiration / Neuronal Differentiation / Mitochondrial dysfunction / Rats / Disease Progression / Mechanism of action / Nerve Growth Factor / Trifluoperazine / Monoamine oxidase / Parkinson Disease / Biochemistry and cell biology / Dopamine antagonists / Cell Differentiation / Animals / Male / Cell Death / Substantia nigra / Cyclosporine / Respiration / Neuronal Differentiation / Mitochondrial dysfunction / Rats / Disease Progression / Mechanism of action / Nerve Growth Factor / Trifluoperazine / Monoamine oxidase / Parkinson Disease / Biochemistry and cell biology / Dopamine antagonists
Selective dopaminergic vulnerability: 3,4-dihydroxyphenylacetaldehyde targets mitochondria
Free Radicals / Membrane Proteins / Enzyme Inhibitors / Mitochondria / Ion Channels / Dopamine / Cell Differentiation / Animals / Male / Cell Death / PT / Substantia nigra / Cyclosporine / Respiration / Neuronal Differentiation / Mitochondrial dysfunction / Rats / CSA / Disease Progression / Mechanism of action / Nerve Growth Factor / Trifluoperazine / Monoamine oxidase / Parkinson Disease / Biochemistry and cell biology / Dopamine antagonists / Dopamine / Cell Differentiation / Animals / Male / Cell Death / PT / Substantia nigra / Cyclosporine / Respiration / Neuronal Differentiation / Mitochondrial dysfunction / Rats / CSA / Disease Progression / Mechanism of action / Nerve Growth Factor / Trifluoperazine / Monoamine oxidase / Parkinson Disease / Biochemistry and cell biology / Dopamine antagonists
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