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Cellular and Molecular Neuroscience
Cellular and Molecular Neuroscience
Presenilin endoproteolysis is an intramolecular cleavage
Cognitive Science / Catalysis / Membrane Proteins / IP / Molecular and cellular biology / Humans / Kidney / Mutation / Mice / Animals / Active site / Presenilin-2 / App / Cellular and Molecular Neuroscience / MEF / Neurosciences / Full Length Movies / Dimerization / Humans / Kidney / Mutation / Mice / Animals / Active site / Presenilin-2 / App / Cellular and Molecular Neuroscience / MEF / Neurosciences / Full Length Movies / Dimerization
Presenilin endoproteolysis is an intramolecular cleavage
Cognitive Science / Catalysis / Membrane Proteins / IP / Molecular and cellular biology / Humans / Kidney / Mutation / Mice / Animals / Active site / Presenilin-2 / App / Cellular and Molecular Neuroscience / MEF / Neurosciences / Full Length Movies / Dimerization / Humans / Kidney / Mutation / Mice / Animals / Active site / Presenilin-2 / App / Cellular and Molecular Neuroscience / MEF / Neurosciences / Full Length Movies / Dimerization
Loss of Prion Protein in a Transgenic Model of Amyotrophic Lateral Sclerosis
Cognitive Science / Protein Folding / Skeletal muscle biology / Motor neuron / Transgenic Mice / Amyotrophic Lateral Sclerosis / Molecular chaperones / Molecular and cellular biology / Genetic Testing / Mutation / Mice / Animals / Spinal Cord / Superoxide Dismutase / Western blot / Sciatic Nerve / Cellular and Molecular Neuroscience / Enzymatic Activity / Neurosciences / Down-Regulation / Prion Protein / DNA mutational analysis / Amyotrophic Lateral Sclerosis / Molecular chaperones / Molecular and cellular biology / Genetic Testing / Mutation / Mice / Animals / Spinal Cord / Superoxide Dismutase / Western blot / Sciatic Nerve / Cellular and Molecular Neuroscience / Enzymatic Activity / Neurosciences / Down-Regulation / Prion Protein / DNA mutational analysis
Ventral midbrain glia express region-specific transcription factors and regulate dopaminergic neurogenesis through Wnt-5a secretion
Cognitive Science / Transcription Factors / Signal Transduction / Neural Development / Dopamine / Antibodies / Cell Differentiation / Molecular and cellular biology / Cerebral Cortex / Animals / Astrocyte / Glial Cell / Transcription Factor / Tyrosine Hydroxylase / Rats / Radial Glia / Cellular and Molecular Neuroscience / DNA binding proteins / Neurosciences / Antibodies / Cell Differentiation / Molecular and cellular biology / Cerebral Cortex / Animals / Astrocyte / Glial Cell / Transcription Factor / Tyrosine Hydroxylase / Rats / Radial Glia / Cellular and Molecular Neuroscience / DNA binding proteins / Neurosciences
Ventral midbrain glia express region-specific transcription factors and regulate dopaminergic neurogenesis through Wnt-5a secretion
Cognitive Science / Transcription Factors / Signal Transduction / Neural Development / Dopamine / Antibodies / Cell Differentiation / Molecular and cellular biology / Cerebral Cortex / Animals / Astrocyte / Glial Cell / Transcription Factor / Tyrosine Hydroxylase / Rats / Radial Glia / Cellular and Molecular Neuroscience / DNA binding proteins / Neurosciences / Antibodies / Cell Differentiation / Molecular and cellular biology / Cerebral Cortex / Animals / Astrocyte / Glial Cell / Transcription Factor / Tyrosine Hydroxylase / Rats / Radial Glia / Cellular and Molecular Neuroscience / DNA binding proteins / Neurosciences
Comprehensive spatiotemporal transcriptomic analyses of the ganglionic eminences demonstrate the uniqueness of its caudal subdivision
Genetics / Cognitive Science / Cell Signaling / Gene expression / Temporal dynamics / Neural Development / Pregnancy / Molecular and cellular biology / Cerebral Cortex / Female / Animals / Rats / Time Factors / Cellular and Molecular Neuroscience / Temporal Analysis / Embryos / Neurosciences / Gene expression profiling / Median Eminence / Differential expression / Neural Development / Pregnancy / Molecular and cellular biology / Cerebral Cortex / Female / Animals / Rats / Time Factors / Cellular and Molecular Neuroscience / Temporal Analysis / Embryos / Neurosciences / Gene expression profiling / Median Eminence / Differential expression
Muscarinic acetylcholine receptor activation induces Ca2+ mobilization and Na+/K+-ATPase activity inhibition in eel enterocytes
Endocrinology / Cognitive Science / Long Term Potentiation / Calcium / Enzyme Inhibitors / Multidisciplinary / Animal Production / Cytoskeleton / Patch-clamp and imaging techniques / Western blotting / Signal Transduction / Cannabinoids / Hippocampus / Tacrolimus / Humans / Cerebellum / Permeability / Mice / Animals / Metabotropic Glutamate Receptors / Calcium channels / Intestinal barrier function / Male / EELS / Calcium Signaling / Phosphorylation / Neurons / Single Cell / Clinical Sciences / Rats / Glutamine / Sodium / Analysis of Variance / SYNAPSES / Epithelial Attachment / Cellular and Molecular Neuroscience / Purkinje Cells / Veterinary Sciences / Action potential / Primary Culture / Calcineurin inhibitors / Nifedipine / Sirolimus / Second Messengers / Neurosciences / Plasma Membrane / Endosomes / Intracellular Calcium / Enterocytes / Calcium Channel Blockers / Phospholipase C / Multidisciplinary / Animal Production / Cytoskeleton / Patch-clamp and imaging techniques / Western blotting / Signal Transduction / Cannabinoids / Hippocampus / Tacrolimus / Humans / Cerebellum / Permeability / Mice / Animals / Metabotropic Glutamate Receptors / Calcium channels / Intestinal barrier function / Male / EELS / Calcium Signaling / Phosphorylation / Neurons / Single Cell / Clinical Sciences / Rats / Glutamine / Sodium / Analysis of Variance / SYNAPSES / Epithelial Attachment / Cellular and Molecular Neuroscience / Purkinje Cells / Veterinary Sciences / Action potential / Primary Culture / Calcineurin inhibitors / Nifedipine / Sirolimus / Second Messengers / Neurosciences / Plasma Membrane / Endosomes / Intracellular Calcium / Enterocytes / Calcium Channel Blockers / Phospholipase C
Ventral midbrain glia express region-specific transcription factors and regulate dopaminergic neurogenesis through Wnt-5a secretion
Cognitive Science / Transcription Factors / Signal Transduction / Neural Development / Dopamine / Antibodies / Cell Differentiation / Molecular and cellular biology / Cerebral Cortex / Animals / Astrocyte / Glial Cell / Transcription Factor / Tyrosine Hydroxylase / Rats / Radial Glia / Cellular and Molecular Neuroscience / DNA binding proteins / Neurosciences / Antibodies / Cell Differentiation / Molecular and cellular biology / Cerebral Cortex / Animals / Astrocyte / Glial Cell / Transcription Factor / Tyrosine Hydroxylase / Rats / Radial Glia / Cellular and Molecular Neuroscience / DNA binding proteins / Neurosciences
NG2 cells differentiate into astrocytes in cerebellar slices
Cognitive Science / Cell Cycle / Transgenic Mice / Neural stem cell / Cell Differentiation / Humans / Cerebellum / Mice / Animals / Astrocyte / Glial Cell / Neurons / Astrocytes / Glial Fibrillary Acidic Protein / Biological markers / Cellular and Molecular Neuroscience / Neurosciences / Humans / Cerebellum / Mice / Animals / Astrocyte / Glial Cell / Neurons / Astrocytes / Glial Fibrillary Acidic Protein / Biological markers / Cellular and Molecular Neuroscience / Neurosciences
Temporal and spatial gene expression patterns after experimental stroke in a rat model and characterization of PC4, a potential regulator of transcription
Cognitive Science / Membrane Proteins / Transcription regulation of development / Preventive medicine / Molecular Mechanics / Antibodies / Tissue repair / Cell line / Brain / Animals / Ischemic Stroke / Transcription Factor / Rats / Cellular and Molecular Neuroscience / Rat Model / Rabbits / Nerve Growth Factor / Neurosciences / Gene Expression Regulation / Functional Properties / Antibodies / Tissue repair / Cell line / Brain / Animals / Ischemic Stroke / Transcription Factor / Rats / Cellular and Molecular Neuroscience / Rat Model / Rabbits / Nerve Growth Factor / Neurosciences / Gene Expression Regulation / Functional Properties
Loss of Prion Protein in a Transgenic Model of Amyotrophic Lateral Sclerosis
Cognitive Science / Protein Folding / Skeletal muscle biology / Motor neuron / Transgenic Mice / Amyotrophic Lateral Sclerosis / Molecular chaperones / Molecular and cellular biology / Genetic Testing / Mutation / Mice / Animals / Spinal Cord / Superoxide Dismutase / Western blot / Sciatic Nerve / Cellular and Molecular Neuroscience / Enzymatic Activity / Neurosciences / Down-Regulation / Amyotrophic Lateral Sclerosis / Molecular chaperones / Molecular and cellular biology / Genetic Testing / Mutation / Mice / Animals / Spinal Cord / Superoxide Dismutase / Western blot / Sciatic Nerve / Cellular and Molecular Neuroscience / Enzymatic Activity / Neurosciences / Down-Regulation
Peripheral myelin protein 22 kDa and protein zero: domain specific trans-interactions
Cognitive Science / Molecular Biology / Cell Adhesion / Molecular and cellular biology / Humans / Mutation / Domain Specificity / HeLa cells / Peripheral nerves / Myelin Proteins / Cellular and Molecular Neuroscience / Protein Binding / Biological Assay / Charcot Marie Tooth Disease / Neurosciences / Myelin Sheath / Mutation / Domain Specificity / HeLa cells / Peripheral nerves / Myelin Proteins / Cellular and Molecular Neuroscience / Protein Binding / Biological Assay / Charcot Marie Tooth Disease / Neurosciences / Myelin Sheath
NG2 cells differentiate into astrocytes in cerebellar slices
Cognitive Science / Cell Cycle / Transgenic Mice / Neural stem cell / Cell Differentiation / Humans / Cerebellum / Mice / Animals / Astrocyte / Glial Cell / Neurons / Astrocytes / Glial Fibrillary Acidic Protein / Biological markers / Cellular and Molecular Neuroscience / Neurosciences / Humans / Cerebellum / Mice / Animals / Astrocyte / Glial Cell / Neurons / Astrocytes / Glial Fibrillary Acidic Protein / Biological markers / Cellular and Molecular Neuroscience / Neurosciences
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