Tyrosine Hydroxylase

Psychosis pathways converge via D2High dopamine receptors

Cognitive Science / Schizophrenia / STEROIDS / Signal Transduction / Dopamine / Synapse / Humans / Mice / Animals / dopamine receptor D4 / Animal Model / Brain injury / Tyrosine Hydroxylase / Cesarean Section / Biological markers / Psychotic Disorders / Neural pathways / G protein / Genetic Markers / Neurosciences / Synapse / Humans / Mice / Animals / dopamine receptor D4 / Animal Model / Brain injury / Tyrosine Hydroxylase / Cesarean Section / Biological markers / Psychotic Disorders / Neural pathways / G protein / Genetic Markers / Neurosciences

Towards a dynamic approach of experimental parkinsonism

Kinetics / Immunohistochemistry / Low Dose / Tyrosine Hydroxylase / Degeneration / Clinical Signs

Psychosis pathways converge via D2High dopamine receptors

Cognitive Science / Schizophrenia / STEROIDS / Signal Transduction / Dopamine / Synapse / Humans / Mice / Animals / dopamine receptor D4 / Animal Model / Brain injury / Tyrosine Hydroxylase / Cesarean Section / Biological markers / Psychotic Disorders / Neural pathways / G protein / Genetic Markers / Neurosciences / Synapse / Humans / Mice / Animals / dopamine receptor D4 / Animal Model / Brain injury / Tyrosine Hydroxylase / Cesarean Section / Biological markers / Psychotic Disorders / Neural pathways / G protein / Genetic Markers / Neurosciences

Apoptosis in substantia nigra following developmental striatal excitotoxic injury

Electron Microscopy / DNA damage / Apoptosis / Multidisciplinary / DNA / Female / Animals / Male / Cell Death / Substantia nigra / Neurons / Tyrosine Hydroxylase / Rats / Time Course / Substantia nigra pars compacta (SNpc) / Female / Animals / Male / Cell Death / Substantia nigra / Neurons / Tyrosine Hydroxylase / Rats / Time Course / Substantia nigra pars compacta (SNpc)

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