Neural Basis of Birdsong

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    2020
  1. Network Dynamics Underlie Learning and Performance of Birdsong
    Richard Bertram, Richard L. Hyson, Amanda J. Brunick, Diana Flores, Frank Johnson
    Current Opinion in Neurobiology, 64:119-126, (2020).

    2. 2019
  2. Female Zebra Finches Do Not Sing Yet Share Neural Pathways Necessary for Singing in Birds
    Derrick W. Shaughnessy, Richard L. Hyson, Richard Bertram, Wei Wu, Frank Johnson
    Journal of Comparative Neurology, 527:843-855, (2019).

  3. Experience-Dependent Intrinsic Plasticity During Auditory Learning
    Matthew T. Ross, Diana Flores, Richard Bertram, Frank Johnson, Wei Wu, Richard L. Hyson
    Journal of Neuroscience, 19:1206-1221, (2019).

    4. 2018
  4. Interhemispheric Dominance Switching in a Neural Network Model for Birdsong
    Daniel Galvis, Wei Wu, Richard L. Hyson, Frank Johnson, Richard Bertram
    Journal of Neurophysiology, 120:1186-1197, (2018).

    5. 2017
  5. Neuronal Intrinsic Physiology Changes During Development of a Learned Behavior
    Matthew T. Ross, Diana Flores, Richard Bertram, Frank Johnson, Richard L. Hyson
    eNeuro, 4(5), e0297-17.2017, (2017).

  6. A Distributed Neural Network Model for the Distinct roles of Medial and Lateral HVC in Zebra Finch Song Production
    Daniel Galvis, Wei Wu, Richard L. Hyson, Frank Johnson, Richard Bertram
    Journal of Neurophysiology, 118:677-692, (2017).

  7. Orthogonal Topography in the Parallel Input Architecture of Songbird HVC
    Kevin C. Elliott, Wei Wu, Richard Bertram, Richard L. Hyson, Frank Johnson
    Journal of Comparative Neurology, 525:2133-2151, (2017).

    8. 2014
  8. Independent Premotor Encoding of the Sequence and Structure of Birdsong in Avian Cortex
    Mark J. Basista, Kevin C. Elliott, Wei Wu, Richard L. Hyson, Richard Bertram, Frank Johnson
    Journal of Neuroscience, 34:16821-16834, (2014).

  9. Two Neural Streams, One Voice: Pathways for Theme and Variation in the Songbird Brain
    Richard Bertram, Arij Daou, Richard L. Hyson, Frank Johnson, and Wei Wu
    Neuroscience, 277:806-817, (2014).

  10. Disconnection of a Basal Ganglia Circuit in Juvenile Songbirds Attenuates the Spectral Differentiation of Song Syllables
    Kevin Elliott, Wei Wu, Richard Bertram, Frank Johnson
    Developmental Neurobiology, 74:574-590, (2014).

    11. 2013
  11. Electrophysiological Characterization and Computational Models of HVC Neurons in the Zebra Finch
    Arij Daou, Matthew T. Ross, Frank Johnson, Richard L. Hyson, Richard Bertram
    Journal of Neurophysiology, 110:1227-1245, (2013).

    12. 2012
  12. A Computational Tool for Automated Large-Scale Analysis and Measurement of Bird-Song Syntax
    Arij Daou, Frank Johnson, Wei Wu, Richard Bertram
    Journal of Neuroscience Methods, 210:147-160, (2012).

    13. 2011
  13. Dual Pre-Motor Contribution to Songbird Syllable Variation
    John A. Thompson, Mark Basista, Wei Wu, Richard Bertram, Frank Johnson
    Journal of Neuroscience, 31:322-330, (2011).

    14. 2008
  14. A Statistical Method for Quantifying Songbird Phonology and Syntax
    Wei Wu, John A. Thompson, Richard Bertram, Frank Johnson
    Journal of Neuroscience Methods, 174:147-154, (2008).

    15. 2007
  15. Auditory-Dependent Vocal Recovery in Adult male Zebra Finches is Facilitated by Lesion of a Forebrain Pathway That Includes the Basal Ganglia
    John A. Thompson, Wei Wu, Richard Bertram, Frank Johnson
    Journal of Neuroscience, 27:12308-12320, (2007).