Dopamine neurons encode performance error in singing birds | Zendy

Vikram Gadagkar | Zendy; Pavel A. Puzerey | Zendy; Ruidong Chen | Zendy; Eliza Baird-Daniel | Zendy; Alexander Farhang | Zendy; Jesse H. Goldberg | Zendy

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Dopamine neurons encode performance error in singing birds

Author(s) -

Vikram Gadagkar,

Pavel A. Puzerey,

Ruidong Chen,

Eliza Baird-Daniel,

Alexander Farhang,

Jesse H. Goldberg

Publication year - 2016

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.aah6837

Subject(s) - songbird , singing , zebra finch , taeniopygia , finch , encode , canto , biology , dopamine , communication , auditory feedback , psychology , neuroscience , zoology , ecology , linguistics , acoustics , biochemistry , physics , gene , philosophy

Many behaviors are learned through trial and error by matching performance to internal goals. Yet neural mechanisms of performance evaluation remain poorly understood. We recorded basal ganglia-projecting dopamine neurons in singing zebra finches as we controlled perceived song quality with distorted auditory feedback. Dopamine activity was phasically suppressed after distorted syllables, consistent with a worse-than-predicted outcome, and was phasically activated at the precise moment of the song when a predicted distortion did not occur, consistent with a better-than-predicted outcome. Error response magnitude depended on distortion probability. Thus, dopaminergic error signals can evaluate behaviors that are not learned for reward and are instead learned by matching performance outcomes to internal goals.

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