scholarly article | Q13442814 |
P50 | author | John A Thompson | Q40994636 |
P2093 | author name string | Wei Wu | |
Richard Bertram | |||
Frank Johnson | |||
P2860 | cites work | Vocal experimentation in the juvenile songbird requires a basal ganglia circuit | Q24805247 |
HVC neural sleep activity increases with development and parallels nightly changes in song behavior. | Q28755337 | ||
Forebrain lesions disrupt development but not maintenance of song in passerine birds | Q29547788 | ||
A comparative study of the behavioral deficits following lesions of various parts of the zebra finch song system: implications for vocal learning | Q29547789 | ||
A procedure for an automated measurement of song similarity | Q29547814 | ||
Contributions of an avian basal ganglia-forebrain circuit to real-time modulation of song | Q29547818 | ||
An ultra-sparse code underlies the generation of neural sequences in a songbird | Q29547819 | ||
For whom the bird sings: context-dependent gene expression | Q29547834 | ||
Brain pathways for learned and unlearned vocalizations differ in zebra finches | Q29618234 | ||
Auditory feedback is necessary for the maintenance of stereotyped song in adult zebra finches | Q29618236 | ||
Auditory pathways of caudal telencephalon and their relation to the song system of adult male zebra finches | Q29618238 | ||
Targeted neuronal death affects neuronal replacement and vocal behavior in adult songbirds. | Q52170022 | ||
Projection neurons within a vocal motor pathway are born during song learning in zebra finches | Q52250956 | ||
Temporal hierarchical control of singing in birds | Q29618239 | ||
Interruption of a basal ganglia-forebrain circuit prevents plasticity of learned vocalizations | Q29618294 | ||
Decrystallization of adult birdsong by perturbation of auditory feedback | Q29618295 | ||
Song replay during sleep and computational rules for sensorimotor vocal learning | Q29618542 | ||
How sleep affects the developmental learning of bird song | Q29618696 | ||
Lesions of an avian basal ganglia circuit prevent context-dependent changes to song variability | Q29618763 | ||
Singing-related activity of identified HVC neurons in the zebra finch | Q29618781 | ||
Sleep-related neural activity in a premotor and a basal-ganglia pathway of the songbird | Q30011027 | ||
Calcium-binding proteins define interneurons in HVC of the zebra finch (Taeniopygia guttata). | Q30011049 | ||
Birdsong: models and mechanisms | Q30011112 | ||
Two-stage, input-specific synaptic maturation in a nucleus essential for vocal production in the zebra finch | Q30011148 | ||
Anterior forebrain neurons develop selectivity by an intermediate stage of birdsong learning. | Q30011172 | ||
Topographic organization of a forebrain pathway involved with vocal learning in zebra finches | Q30011199 | ||
Songbirds tune their vocal tract to the fundamental frequency of their song | Q30477298 | ||
Experimental test of the birdsong error-correction model | Q30499816 | ||
Song learning in birds: diversity and plasticity, opportunities and challenges | Q34400284 | ||
Contributions of the anterior forebrain pathway to vocal plasticity. | Q35864430 | ||
The basal ganglia: learning new tricks and loving it. | Q36306845 | ||
Two distinct inputs to an avian song nucleus activate different glutamate receptor subtypes on individual neurons | Q37508978 | ||
Song-selective auditory circuits in the vocal control system of the zebra finch | Q37646616 | ||
Sex‐dependent loss of projection neurons involved in avian song learning | Q41078550 | ||
Effect of testosterone on input received by an identified neuron type of the canary song system: a Golgi/electron microscopy/degeneration study | Q41254629 | ||
Contributions of tutor and bird's own song experience to neural selectivity in the songbird anterior forebrain | Q41667418 | ||
Singing-related neural activity in a dorsal forebrain-basal ganglia circuit of adult zebra finches. | Q41704320 | ||
An associational model of birdsong sensorimotor learning I. Efference copy and the learning of song syllables | Q41760555 | ||
An associational model of birdsong sensorimotor learning II. Temporal hierarchies and the learning of song sequence | Q41760560 | ||
The HVC microcircuit: the synaptic basis for interactions between song motor and vocal plasticity pathways. | Q42474715 | ||
Different subthreshold mechanisms underlie song selectivity in identified HVc neurons of the zebra finch. | Q42490208 | ||
Sleep-related spike bursts in HVC are driven by the nucleus interface of the nidopallium | Q42501966 | ||
Postlearning consolidation of birdsong: stabilizing effects of age and anterior forebrain lesions. | Q43551129 | ||
Long memory in song learning by zebra finches. | Q45979783 | ||
The development of afferent projections to the robust archistriatal nucleus in male zebra finches: a quantitative electron microscopic study | Q46285456 | ||
Limits on reacquisition of song in adult zebra finches exposed to white noise. | Q46689986 | ||
Synaptic transformations underlying highly selective auditory representations of learned birdsong. | Q47868531 | ||
Multiple cell types distinguished by physiological, pharmacological, and anatomic properties in nucleus HVc of the adult zebra finch | Q47907470 | ||
HVC microlesions do not destabilize the vocal patterns of adult male zebra finches with prior ablation of LMAN. | Q48197187 | ||
Changes in adult zebra finch song require a forebrain nucleus that is not necessary for song production | Q48229994 | ||
Role of a telencephalic nucleus in the delayed song learning of socially isolated zebra finches | Q48240909 | ||
Axonal connections of the high vocal center and surrounding cortical regions in juvenile and adult male zebra finches | Q48426069 | ||
Lesions of an avian forebrain nucleus prevent changes in protein kinase C levels associated with deafening-induced vocal plasticity in adult songbirds | Q48536236 | ||
Age at deafening affects the stability of learned song in adult male zebra finches. | Q50495804 | ||
Deafening alters neuron turnover within the telencephalic motor pathway for song control in adult zebra finches. | Q50499058 | ||
Acute injections of brain-derived neurotrophic factor in a vocal premotor nucleus reversibly disrupt adult birdsong stability and trigger syllable deletion. | Q51996332 | ||
P433 | issue | 45 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | vocal learning | Q1514944 |
P304 | page(s) | 12308-12320 | |
P577 | publication date | 2007-11-01 | |
P1433 | published in | Journal of Neuroscience | Q1709864 |
P1476 | title | Auditory-dependent vocal recovery in adult male zebra finches is facilitated by lesion of a forebrain pathway that includes the basal ganglia | |
P478 | volume | 27 |
Q28742408 | A hypothesis for basal ganglia-dependent reinforcement learning in the songbird |
Q28756815 | A statistical method for quantifying songbird phonology and syntax |
Q24657611 | Adult birdsong is actively maintained by error correction. |
Q30460858 | Adult neurogenesis is associated with the maintenance of a stereotyped, learned motor behavior |
Q30481299 | An avian basal ganglia-forebrain circuit contributes differentially to syllable versus sequence variability of adult Bengalese finch song. |
Q28728610 | Anatomical plasticity in the adult zebra finch song system |
Q30459380 | Axial organization of a brain region that sequences a learned pattern of behavior |
Q30460152 | Bidirectional regulation of the cAMP response element binding protein encodes spatial map alignment in prism-adapting barn owls |
Q41109851 | Catecholaminergic contributions to vocal communication signals |
Q28750334 | Daily and developmental modulation of "premotor" activity in the birdsong system |
Q48184775 | Deafening-induced vocal deterioration in adult songbirds is reversed by disrupting a basal ganglia-forebrain circuit. |
Q28661235 | Developmental pattern of diacylglycerol lipase-α (DAGLα) immunoreactivity in brain regions important for song learning and control in the zebra finch (Taeniopygia guttata) |
Q28659215 | Differential contributions of basal ganglia and thalamus to song initiation, tempo, and structure |
Q28740907 | Dual pre-motor contribution to songbird syllable variation |
Q47926869 | Expression of the potassium-chloride co-transporter, KCC2, within the avian song system |
Q30401354 | Imaging auditory representations of song and syllables in populations of sensorimotor neurons essential to vocal communication |
Q48412870 | Independent premotor encoding of the sequence and structure of birdsong in avian cortex. |
Q27332395 | Long-distance retinoid signaling in the zebra finch brain |
Q28743997 | Mechanisms and time course of vocal learning and consolidation in the adult songbird |
Q30010597 | Models of vocal learning in the songbird: Historical frameworks and the stabilizing critic |
Q46213829 | Naturalistic stimulation drives opposing heterosynaptic plasticity at two inputs to songbird cortex |
Q30010511 | Orthogonal topography in the parallel input architecture of songbird HVC. |
Q28743621 | Premotor synaptic plasticity limited to the critical period for song learning |
Q48305696 | Regulation of learned vocal behavior by an auditory motor cortical nucleus in juvenile zebra finches |
Q48745139 | Remodeling of Dendritic Spines in the Avian Vocal Motor Cortex Following Deafening Depends on the Basal Ganglia Circuit |
Q41442436 | Sexual dimorphism of the electrophysiological properties of the projection neurons in the robust nucleus of the arcopallium in adult zebra finches |
Q28743213 | Social performance reveals unexpected vocal competency in young songbirds |
Q30010955 | The origins of vocal learning: New sounds, new circuits, new cells |
Q28756519 | Top-down regulation of plasticity in the birdsong system: "premotor" activity in the nucleus HVC predicts song variability better than it predicts song features. |
Q28654604 | Translating birdsong: songbirds as a model for basic and applied medical research |
Q28681535 | Variable sequencing is actively maintained in a well learned motor skill |
Q28646929 | VoICE: A semi-automated pipeline for standardizing vocal analysis across models |
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