Connections of vocal control nuclei in the canary telencephalon
about
An efficient coding hypothesis links sparsity and selectivity of neural responses.Molecular mapping of movement-associated areas in the avian brain: a motor theory for vocal learning originRevised nomenclature for avian telencephalon and some related brainstem nucleiVocal experimentation in the juvenile songbird requires a basal ganglia circuitThe role of auditory feedback in vocal learning and maintenance.Dynamic expression of cadherins regulates vocal development in a songbird.Mesoscopic patterns of neural activity support songbird cortical sequences.Neurobiology of song learningSongbirds and the revised avian brain nomenclatureNeural circuits. Inhibition protects acquired song segments during vocal learning in zebra finchesAn Adapting Auditory-motor Feedback Loop Can Contribute to Generating Vocal Repetition.Singing under the influence: examining the effects of nutrition and addiction on a learned vocal behavior.Dynamic gene expression in the song system of zebra finches during the song learning period.Sexually-motivated song is predicted by androgen-and opioid-related gene expression in the medial preoptic nucleus of male European starlings (Sturnus vulgaris)A putative RA-like region in the brain of the scale-backed antbird, Willisornis poecilinotus (Furnariides, Suboscines, Passeriformes, Thamnophilidae)At the interface of the auditory and vocal motor systems: NIf and its role in vocal processing, production and learningSexual Differences in Cell Loss during the Post-Hatch Development of Song Control Nuclei in the Bengalese FinchAnatomically discrete sex differences in neuroplasticity in zebra finches as reflected by perineuronal netsComparative genomics reveals molecular features unique to the songbird lineage.Motor origin of precise synaptic inputs onto forebrain neurons driving a skilled behavior.Testosterone modulation of angiogenesis and neurogenesis in the adult songbird brainHarnessing vocal patterns for social communicationThe basal ganglia is necessary for learning spectral, but not temporal, features of birdsong.Auditory synapses to song premotor neurons are gated off during vocalization in zebra finchesRhythmic cortical neurons increase their oscillations and sculpt basal ganglia signaling during motor learning.Enriched expression and developmental regulation of the middle-weight neurofilament (NF-M) gene in song control nuclei of the zebra finch.Morphology of axonal projections from the high vocal center to vocal motor cortex in songbirds.Mouse vocal communication system: are ultrasounds learned or innate?Connections of the auditory brainstem in a songbird, Taeniopygia guttata. III. Projections of the superior olive and lateral lemniscal nucleiDevelopmental pattern of diacylglycerol lipase-α (DAGLα) immunoreactivity in brain regions important for song learning and control in the zebra finch (Taeniopygia guttata)Activity in a premotor cortical nucleus of zebra finches is locally organized and exhibits auditory selectivity in neurons but not in glia.Genomics analysis of potassium channel genes in songbirds reveals molecular specializations of brain circuits for the maintenance and production of learned vocalizations.Directed functional connectivity matures with motor learning in a cortical pattern generator.Recurrent interactions between the input and output of a songbird cortico-basal ganglia pathway are implicated in vocal sequence variability.Oculomotor learning revisited: a model of reinforcement learning in the basal ganglia incorporating an efference copy of motor actions.The gain modulation by N-methyl-D-aspartate in the projection neurons of robust nucleus of the arcopallium in adult zebra finchesVocal parameters that indicate threat level correlate with FOS immunolabeling in social and vocal control brain regions.Comparative gene expression analysis among vocal learners (bengalese finch and budgerigar) and non-learners (quail and ring dove) reveals variable cadherin expressions in the vocal systemTwo distinct modes of forebrain circuit dynamics underlie temporal patterning in the vocalizations of young songbirds.A hypothesis for basal ganglia-dependent reinforcement learning in the songbird.
P2860
Q21135007-609E3F8D-02A2-4F89-BC0B-0AEF4F1D7490Q21562293-2A50B113-72E7-49BD-84C1-B54C123F00B6Q22337412-FB7F3E2E-F6FB-4508-B833-56944BF7A12DQ24805247-C3F74950-80E1-4FB1-AAD2-5E340A125C5AQ26998583-F0D63CE7-AFC4-4F90-BD0D-304B4A0D098BQ27318552-44528E86-A560-4377-9842-F17C2A69281BQ27347729-5FA34507-B6C8-4E65-92A6-F266FAEFA8E9Q28263796-EFD82BCB-5083-49DD-90FF-67C18FCD6C05Q28277305-D49D5240-DC6C-40C2-9E3D-2C1E4C223C0FQ28603112-67ADDCEF-8D9C-4017-904C-3314E04BB517Q28606639-A1236555-8A54-4B20-A8AE-4224DFED288EQ28607447-4BC3FA48-49B4-4BC5-A0BB-5B2E8D996924Q28607477-6A58BEC1-A2AB-4526-9BE6-C97148A85F8FQ28608043-6FCD80DC-52DD-40B1-AB8A-CCE20E1F1EFCQ28610479-494F406E-4ABA-4EE0-91E1-0FE87E35EC00Q28611379-22AFC154-8781-4C58-A8CF-8455DFA173FBQ28648105-4EEC63CD-2376-4C60-A6E6-85A817B1979DQ28650156-93C1B05A-65E6-452F-9902-E9D516BF2B7FQ28651134-54BD0370-1F37-4BF0-811F-BEF01B21F645Q28652521-B0DA3E57-58CD-4CED-86A7-A676738A1DB9Q28655180-535330E4-E7CF-46AC-BD65-ED08086BC68CQ28655371-9EACA5AD-37EF-4901-9B12-3F797F126688Q28658855-23BFFAAF-F4C4-4B22-B4C9-8B11E6FF7648Q28658963-287B8FBB-AC48-4D04-A374-582E1CCDE196Q28659140-7E5829FE-BA09-4C10-A513-E005F3C300A3Q28659345-3C7D08F5-3A20-418D-8E9F-57260603B263Q28660429-1E757924-F786-47A7-BFA7-714CDE32B6A8Q28660771-862C9948-6149-41E8-B225-A115AE45B106Q28661083-60B4A8A6-E2B0-49EF-9309-1BED54E65733Q28661235-2A4DA617-4A43-49B1-93FD-F4ECF2C18AC2Q28661339-0A4A726E-A09D-4825-A031-364EC889EA28Q28678092-DEAD4287-FB2A-4EA1-B22F-85FDF13866D5Q28709032-9DE3BFDE-07D0-42C2-931D-EFD4D71A67A5Q28727628-966D1414-1EE3-475E-B7B7-6CBE1523A9B0Q28727890-AB090043-D4BB-4C8B-8C9B-0E552A838A2BQ28729101-2DB7E858-189D-4BE9-8741-88CACBF682F3Q28729890-D487CD3C-F25C-4CF4-96D5-ABC1F5B0C6AAQ28740659-8837A46D-6AA6-4B0F-ABD8-25B7ACFDED36Q28741212-D15140DE-263D-4BF5-B735-EA6933860CF1Q28742408-6BC99D6E-A053-49FC-AB25-68CC4CCDEF8E
P2860
Connections of vocal control nuclei in the canary telencephalon
description
1982 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1982 թվականի հունիսին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 1982
@ast
im Juni 1982 veröffentlichter wissenschaftlicher Artikel
@de
scientific article (publication date: June 1982)
@en
wetenschappelijk artikel (gepubliceerd op 1982/06/01)
@nl
наукова стаття, опублікована в червні 1982
@uk
مقالة علمية (نشرت في يونيو 1982)
@ar
name
Connections of vocal control nuclei in the canary telencephalon
@ast
Connections of vocal control nuclei in the canary telencephalon
@en
type
label
Connections of vocal control nuclei in the canary telencephalon
@ast
Connections of vocal control nuclei in the canary telencephalon
@en
prefLabel
Connections of vocal control nuclei in the canary telencephalon
@ast
Connections of vocal control nuclei in the canary telencephalon
@en
P2093
P2860
P356
P1476
Connections of vocal control nuclei in the canary telencephalon
@en
P2093
P2860
P304
P356
10.1002/CNE.902070406
P407
P577
1982-06-01T00:00:00Z