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Sound localization in the alligator.Six Degrees of Auditory Spatial Separation.Forward masking in the medial nucleus of the trapezoid body of the rat.Systematic and differential myelination of axon collaterals in the mammalian auditory brainstem.Neuronal coupling by endogenous electric fields: cable theory and applications to coincidence detector neurons in the auditory brain stem.Tonotopic Optimization for Temporal Processing in the Cochlear Nucleus.Sound Localization Strategies in Three PredatorsRecurrent Inhibition to the Medial Nucleus of the Trapezoid Body in the Mongolian Gerbil (Meriones Unguiculatus).Roles for Coincidence Detection in Coding Amplitude-Modulated Sounds.Cortical Transformation of Spatial Processing for Solving the Cocktail Party Problem: A Computational Model(1,2,3)A functional circuit model of interaural time difference processingRegulation of conduction time along axons.Change in the coding of interaural time difference along the tonotopic axis of the chicken nucleus laminaris.In vivo coincidence detection in mammalian sound localization generates phase delays.Minimal conductance-based model of auditory coincidence detector neuronsHunting increases phosphorylation of calcium/calmodulin-dependent protein kinase type II in adult barn owls.Differential conduction velocity regulation in ipsilateral and contralateral collaterals innervating brainstem coincidence detector neurons.Local inhibition of GABA affects precedence effect in the inferior colliculus.Macrocircuits for sound localization use leaky coincidence detectors and specialized synapsesDirectional hearing by linear summation of binaural inputs at the medial superior oliveAstrocyte-secreted factors modulate the developmental distribution of inhibitory synapses in nucleus laminaris of the avian auditory brainstem.Decoding neural responses to temporal cues for sound localizationBiophysical basis of the sound analog membrane potential that underlies coincidence detection in the barn owl.Signal-to-noise ratio in the membrane potential of the owl's auditory coincidence detectors.Frequency-specific, location-nonspecific adaptation of interaural time difference sensitivityThe representation of sound localization cues in the barn owl's inferior colliculusA Readout Mechanism for Latency Codes.A fast BK-type KCa current acts as a postsynaptic modulator of temporal selectivity for communication signalsNonlinear Dynamics of Neuronal Excitability, Oscillations, and Coincidence Detection.Perineuronal Nets Enhance the Excitability of Fast-Spiking NeuronsDetection of submillisecond spike timing differences based on delay-line anticoincidence detection.From sequence to spike to spark: evo-devo-neuroethology of electric communication in mormyrid fishes.Proteomic analyses of nucleus laminaris identified candidate targets of the fragile X mental retardation protein.Synaptic plasticity in the auditory system: a review.The Physiological Basis and Clinical Use of the Binaural Interaction Component of the Auditory Brainstem Response.Evolutionary trends in directional hearing.Resolution of interaural time differences in the avian sound localization circuit-a modeling study.Intense and specialized dendritic localization of the fragile X mental retardation protein in binaural brainstem neurons: a comparative study in the alligator, chicken, gerbil, and human.Theoretical foundations of the sound analog membrane potential that underlies coincidence detection in the barn owl.Envelope contributions to the representation of interaural time difference in the forebrain of barn owls.
P2860
Q28601611-B3F61986-54B1-46BA-AA8B-222AC992F9B6Q30355170-EAF0FD37-E3F7-4076-A48F-E3BE3006B032Q30357535-469AB9AA-3FD3-4200-A81F-4396795E2439Q30359732-C8C0D518-92C5-497C-9BB6-32E1E7A77706Q30359886-73DCD696-43DA-47B4-BBC9-B5C544DB5AFBQ30363597-AB466C10-770D-4294-827F-B08D9EFD562DQ30373964-47781165-231B-4D1E-AA8F-08AFA8568BD7Q30376309-CFC26882-A73B-48BE-93D1-1E5FD96E864CQ30378767-286BB8D7-6E9A-4E97-95C1-0939718A8E95Q30391364-83C8DFE7-CF43-4ADD-8B99-8D2E238EEAA8Q30397453-23113459-A0C0-40CE-936C-16504167FB54Q30403056-1673E5E8-97C0-42D0-B3A0-D9629CDEC78AQ30403357-60048BE9-93BA-448E-B8CA-314575DDEBBDQ30403964-A74D44D3-5938-4AF5-A6F5-24B8A251292DQ30414572-506A0119-FCDB-4081-B566-2DB615C48AA8Q30416533-2C107A00-9DF2-476F-902A-5FA4ACA5860DQ30429159-D09057EB-49F5-41B8-9B9B-C71463B5D8E2Q30431145-7D218D97-440E-4F0F-89DA-93C5625A2B0FQ30437223-0EB2BD65-2A5C-4D5E-8478-66CC0300C346Q30437226-19FD6AAD-389B-48B1-94C8-8ED82A384EBEQ30443008-7EFDD2A0-C3B1-45CF-9733-DF5ADB1A967CQ30446291-8D0DC561-F76E-487C-BA40-685049C0362BQ30446932-8B5B316D-9DDB-45D7-8F6B-48841248FAB4Q30447167-6481EAD8-11BF-4F60-B589-23AB9E9D6D25Q30449914-D0BFF045-703A-4E33-A165-2E42B9F99CF6Q30465724-93C05456-D620-4750-BF7C-83C6D9586B8AQ33364205-3CED2322-E8C0-48DC-A964-EBE0B5AF3AEAQ34198516-E98DB2F7-EC2B-4D86-99D9-B775DBA10D8DQ34479283-711E92B4-A594-4FDB-BCD8-96340BBE6589Q37180894-F9564655-55BA-40E0-A5A9-9A74FB38AF90Q37346241-4E81A498-8809-43DA-94BD-7B2DB6C9EF29Q38117152-DAD5AD93-1501-4D39-93F0-175B9339A65DQ38431564-D3888AD0-4A3E-4E26-AC0E-564E929B0F95Q38432303-D1FF3BD7-3901-4782-BF83-BADB0D11DE62Q38845895-18BCA01D-DD7C-4E04-BC11-1F78FC41FF31Q38905846-D5F93034-444E-411B-B76D-53D181153B02Q39131750-D893E733-97EB-4C73-AA2A-6DEC67CF698FQ41468658-3063FDB5-9CD3-4A70-80F0-18A0A7D0292BQ42917592-CD7F3785-8355-4A63-AE94-FA358C5138B4Q46340229-F42120C1-DC5C-45B5-962D-C3D54C8438AA
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 07 June 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Sound localization: Jeffress and beyond
@en
Sound localization: Jeffress and beyond.
@nl
type
label
Sound localization: Jeffress and beyond
@en
Sound localization: Jeffress and beyond.
@nl
prefLabel
Sound localization: Jeffress and beyond
@en
Sound localization: Jeffress and beyond.
@nl
P2860
P1476
Sound localization: Jeffress and beyond
@en
P2093
Catherine E Carr
P2860
P304
P356
10.1016/J.CONB.2011.05.008
P577
2011-06-07T00:00:00Z