Search results for "Geniculate"

showing 2 items of 22 documents

AMPA Receptor Auxiliary Proteins of the CKAMP Family

2019

α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptors are assembled of four core subunits and several additional interacting proteins. Cystine-knot AMPA receptor-modulating proteins (CKAMPs) constitute a family of four proteins that influence the trafficking, subcellular localization and function of AMPA receptors. The four CKAMP family members CKAMP39/shisa8, CKAMP44/shisa9, CKAMP52/shisa6 and CKAMP59/shisa7 differ in their expression profile and their modulatory influence on AMPA receptor function. In this review, I report about recent findings on the differential roles of CKAMP family members.

glutamate receptorhippocampusGene ExpressionReviewAMPA receptorBiologySynaptic TransmissionCatalysisCell Linelcsh:ChemistryInorganic ChemistryLong term plasticitylateral geniculate nucleusAnimalsHumansAmino Acid SequenceReceptors AMPAAMPA receptorPhysical and Theoretical Chemistrysynaptic functionReceptorlcsh:QH301-705.5Molecular BiologySpectroscopyNeuronal Plasticitymusculoskeletal neural and ocular physiologyOrganic ChemistryGlutamate receptorGeniculate BodiesGeneral MedicineSubcellular localizationlong-term plasticityComputer Science ApplicationsCell biologyProtein TransportSynaptic functionlcsh:Biology (General)lcsh:QD1-999nervous systemauxiliary subunitMultigene FamilySynapsesCarrier ProteinsIon Channel Gatingshort-term plasticityFunction (biology)Protein BindingInternational Journal of Molecular Sciences
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Neural generators of the frequency-following response elicited to stimuli of low and high frequency: A magnetoencephalographic (MEG) study.

2021

The frequency-following response (FFR) to periodic complex sounds has gained recent interest in auditory cognitive neuroscience as it captures with great fidelity the tracking accuracy of the periodic sound features in the ascending auditory system. Seminal studies suggested the FFR as a correlate of subcortical sound encoding, yet recent studies aiming to locate its sources challenged this assumption, demonstrating that FFR receives some contribution from the auditory cortex. Based on frequency-specific phase-locking capabilities along the auditory hierarchy, we hypothesized that FFRs to higher frequencies would receive less cortical contribution than those to lower frequencies, hence supp…

magnetoencephalographyInferior colliculusMaleAuditory Pathwaysauditory plasticityFrequency following responses0302 clinical medicineMEGmedicine.diagnostic_test05 social sciencesAuditory plasticityMagnetoencephalographyElectroencephalographyMedial geniculate bodyspeech sound encodingkuulofrequency following responseshavaintopsykologiamedicine.anatomical_structureNeurologyNeural sourcesAuditory PerceptionEvoked Potentials AuditoryFemalePsychologyärsykkeetRC321-571AdultCognitive NeuroscienceThalamusNeurosciences. Biological psychiatry. NeuropsychiatryCognitive neuroscienceAuditory cortexneural sources050105 experimental psychology03 medical and health sciencesYoung AdultmedicineAuditory systemHumans0501 psychology and cognitive sciencesfundamental frequencyFundamental frequencyAuditory CortextaajuusMagnetoencephalographyFrequency following responseSpeech sound encodingAcoustic Stimulationkognitiivinen neurotiedeNeuroscience030217 neurology & neurosurgeryNeuroImage
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