Amplitude modulation encoding in the auditory cortex: comparisons between the primary and middle lateral belt regions | Zendy

Jeffrey S. Johnson | Zendy; Mamiko Niwa | Zendy; Kevin N. O’Connor | Zendy; Mitchell L. Sutter | Zendy

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Amplitude modulation encoding in the auditory cortex: comparisons between the primary and middle lateral belt regions

Author(s) -

Jeffrey S. Johnson,

Mamiko Niwa,

Kevin N. O’Connor,

Mitchell L. Sutter

Publication year - 2020

Publication title -

journal of neurophysiology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.302

H-Index - 245

eISSN - 1522-1598

pISSN - 0022-3077

DOI - 10.1152/jn.00171.2020

Subject(s) - modulation (music) , auditory cortex , neuroscience , frequency modulation , amplitude , amplitude modulation , subtraction , physics , communication , biology , psychology , computer science , acoustics , mathematics , optics , telecommunications , bandwidth (computing) , arithmetic

ML neurons synchronized less than A1 neurons, consistent with a hierarchical temporal-to-rate transformation. Both A1 and ML had a class of modulation transfer functions previously unreported in the cortex with a low-modulation-frequency (MF) peak, a middle-MF trough, and responses similar to unmodulated noise responses at high MFs. The results support a hierarchical shift toward a two-pool opponent code, where subtraction of neural activity between two populations of oppositely tuned neurons encodes AM.

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