2024
Comparative single-cell multiome identifies evolutionary changes in neural progenitor cells during primate brain development
Liu Y, Luo X, Sun Y, Chen K, Hu T, You B, Xu J, Zhang F, Cheng Q, Meng X, Yan T, Li X, Qi X, He X, Guo X, Li C, Su B. Comparative single-cell multiome identifies evolutionary changes in neural progenitor cells during primate brain development. Developmental Cell 2024, 60: 414-428.e8. PMID: 39481377, DOI: 10.1016/j.devcel.2024.10.005.Peer-Reviewed Original ResearchEvolutionary changesDistal regulatory elementsGene regulatory mechanismsExtracellular matrixSingle-cell multiomicsProgenitor cellsTranscriptional divergenceEvolutionary divergenceChromatin regionsChromatin accessibilityNeural progenitorsRegulatory elementsSequence changesTranscriptional rewiringGenetic mechanismsMouse prefrontal cortexRegulatory mechanismsPrefrontal cortexHuman neural progenitorsHuman-specific featuresUpper-layer neuronsNeural progenitor cellsChromatinCellular propertiesProgenitor proliferation
2023
Transient Receptor Potential channels (TRP) in GtoPdb v.2023.2
Blair N, Caceres A, Carvacho I, Chaudhuri D, Clapham D, De Clerq K, Delling M, Doerner J, Fan L, Grimm C, Ha K, Hu M, Jabba S, Jordt S, Julius D, Kahle K, Liu B, Liu Q, McKemy D, Nilius B, Oancea E, Owsianik G, Riccio A, Sah R, Stotz S, Tian J, Tong D, Vriens J, Wu L, Xu H, Yang F, Yang W, Yue L, Zhu M. Transient Receptor Potential channels (TRP) in GtoPdb v.2023.2. IUPHAR/BPS Guide To Pharmacology CITE 2023, 2023 DOI: 10.2218/gtopdb/f78/2023.2.Peer-Reviewed Original ResearchTransient receptor potential channelsCongenital stationary night blindnessTRPC channelsAdenosine diphosphate riboseStore-operated channelsMost TRP channelsTRP channelsNMDA receptorsCation channelsIntracellular ATP levelsExtra-synaptic NMDA receptorsMetabotropic glutamate receptor 6Activation of GoHuman TRPM1 mutationsReabsorption of calciumTRPC4/C5Ion channelsExpression of S100A9Dendritic cell migrationBile duct diseaseIntracellular calcium storesActivity of TRPV1Layer 5 neuronsSynaptic NMDA receptorsMouse prefrontal cortexTransient Receptor Potential channels (TRP) in GtoPdb v.2023.1
Blair N, Carvacho I, Chaudhuri D, Clapham D, De Clerq K, Delling M, Doerner J, Fan L, Grimm C, Ha K, Hu M, Jordt S, Julius D, Kahle K, Liu B, Liu Q, McKemy D, Nilius B, Oancea E, Owsianik G, Riccio A, Sah R, Stotz S, Tian J, Tong D, Vriens J, Wu L, Xu H, Yang F, Yang W, Yue L, Zhu M. Transient Receptor Potential channels (TRP) in GtoPdb v.2023.1. IUPHAR/BPS Guide To Pharmacology CITE 2023, 2023 DOI: 10.2218/gtopdb/f78/2023.1.Peer-Reviewed Original ResearchTransient receptor potential channelsCongenital stationary night blindnessTRPC channelsAdenosine diphosphate riboseStore-operated channelsMost TRP channelsTRP channelsNMDA receptorsCation channelsIntracellular ATP levelsExtra-synaptic NMDA receptorsMetabotropic glutamate receptor 6Activation of GoHuman TRPM1 mutationsReabsorption of calciumTRPC4/C5Ion channelsExpression of S100A9Dendritic cell migrationBile duct diseaseIntracellular calcium storesActivity of TRPV1Layer 5 neuronsSynaptic NMDA receptorsMouse prefrontal cortex
2022
Transient Receptor Potential channels (TRP) in GtoPdb v.2022.1
Blair N, Carvacho I, Chaudhuri D, Clapham D, DeCaen P, Delling M, Doerner J, Fan L, Grimm C, Ha K, Jordt S, Julius D, Kahle K, Liu B, McKemy D, Nilius B, Oancea E, Owsianik G, Riccio A, Sah R, Stotz S, Tian J, Tong D, Van den Eynde C, Vriens J, Wu L, Xu H, Yue L, Zhang X, Zhu M. Transient Receptor Potential channels (TRP) in GtoPdb v.2022.1. IUPHAR/BPS Guide To Pharmacology CITE 2022, 2022 DOI: 10.2218/gtopdb/f78/2022.1.Peer-Reviewed Original ResearchTransient receptor potential channelsCongenital stationary night blindnessTRPC channelsStore-operated channelsMost TRP channelsTRP channelsCation channelsMetabotropic glutamate receptor 6Activation of GoHuman TRPM1 mutationsReabsorption of calciumTRPC4/C5Ion channelsDendritic cell migrationLow extracellular sodiumIntracellular calcium storesActivity of TRPV1Layer 5 neuronsMouse prefrontal cortexMucolipidosis type IVGlutamate receptor 6Store-operated mechanismsMain olfactory epitheliumBroad-spectrum agentsPancreatic beta cells
2021
Transient Receptor Potential channels (TRP) in GtoPdb v.2021.3
Blair N, Carvacho I, Chaudhuri D, Clapham D, DeCaen P, Delling M, Doerner J, Fan L, Ha K, Jordt S, Julius D, Kahle K, Liu B, McKemy D, Nilius B, Oancea E, Owsianik G, Riccio A, Sah R, Stotz S, Tian J, Tong D, Van den Eynde C, Vriens J, Wu L, Xu H, Yue L, Zhang X, Zhu M. Transient Receptor Potential channels (TRP) in GtoPdb v.2021.3. IUPHAR/BPS Guide To Pharmacology CITE 2021, 2021 DOI: 10.2218/gtopdb/f78/2021.3.Peer-Reviewed Original ResearchTransient receptor potential channelsCongenital stationary night blindnessTRPC channelsStore-operated channelsMost TRP channelsTRP channelsCation channelsMetabotropic glutamate receptor 6Activation of GoHuman TRPM1 mutationsReabsorption of calciumTRPC4/C5Ion channelsDendritic cell migrationLow extracellular sodiumIntracellular calcium storesActivity of TRPV1Layer 5 neuronsMouse prefrontal cortexMucolipidosis type IVGlutamate receptor 6Main olfactory epitheliumStore-operated mechanismsBroad-spectrum agentsPancreatic beta cells
2019
Transient Receptor Potential channels (version 2019.4) in the IUPHAR/BPS Guide to Pharmacology Database
Blair N, Carvacho I, Chaudhuri D, Clapham D, DeCaen P, Delling M, Doerner J, Fan L, Ha K, Jordt S, Julius D, Kahle K, Liu B, McKemy D, Nilius B, Oancea E, Owsianik G, Riccio A, Sah R, Stotz S, Tian J, Tong D, Van den Eynde C, Vriens J, Wu L, Xu H, Yue L, Zhang X, Zhu M. Transient Receptor Potential channels (version 2019.4) in the IUPHAR/BPS Guide to Pharmacology Database. IUPHAR/BPS Guide To Pharmacology CITE 2019, 2019 DOI: 10.2218/gtopdb/f78/2019.4.Peer-Reviewed Original ResearchCongenital stationary night blindnessTRPC channelsStore-operated channelsMost TRP channelsTRP channelsCation channelsMetabotropic glutamate receptor 6Activation of GoHuman TRPM1 mutationsReabsorption of calciumTRPC4/C5Ion channelsDendritic cell migrationIntracellular calcium storesLow extracellular sodiumLayer 5 neuronsTransient receptor potential channelsActivity of TRPV1Mouse prefrontal cortexMucolipidosis type IVGlutamate receptor 6Main olfactory epitheliumStore-operated mechanismsBroad-spectrum agentsPancreatic beta cells
2014
Ablation of ErbB4 from excitatory neurons leads to reduced dendritic spine density in mouse prefrontal cortex
Cooper MA, Koleske AJ. Ablation of ErbB4 from excitatory neurons leads to reduced dendritic spine density in mouse prefrontal cortex. The Journal Of Comparative Neurology 2014, 522: 3351-3362. PMID: 24752666, PMCID: PMC4107058, DOI: 10.1002/cne.23615.Peer-Reviewed Original ResearchMeSH KeywordsAge FactorsAnimalsCalcium-Calmodulin-Dependent Protein Kinase Type 2Cell FractionationCells, CulturedDendritic SpinesDisks Large Homolog 4 ProteinGene Expression RegulationGreen Fluorescent ProteinsGuanylate KinasesMembrane ProteinsMiceMice, TransgenicMitogen-Activated Protein Kinase 3NestinNeuronsPrefrontal CortexReceptor, ErbB-4SynapsesTransfectionConceptsDendritic spine densitySpine densityExcitatory pyramidal cellsExcitatory neuronsPrefrontal cortexPyramidal cellsDendritic spinesErbB4 functionAblation of ErbB4Dendritic spine lossCortical neuronal culturesMouse prefrontal cortexDendritic spine developmentMonths of ageSynaptic plasma membrane preparationsSpine lossWeanling miceDorsomedial prefrontal cortexPsychiatric disordersKnockout miceMature spinesErbB4 signalingSynaptic plasticityNeuronal culturesDisease pathology
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