Transitioning between preparatory and precisely sequenced neuronal activity in production of a skilled behavior

Precise neural sequences are associated with the production of well-learned skilled behaviors. Yet, how neural sequences arise in the brain remains unclear. In songbirds, premotor projection neurons in the cortical song nucleus HVC are necessary for producing learned song and exhibit precise sequent...

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Bibliographic Details
Published in:eLife 2019-06, Vol.8
Main Authors: Daliparthi, Vamsi K, Tachibana, Ryosuke O, Cooper, Brenton G, Hahnloser, Richard Hr, Kojima, Satoshi, Sober, Samuel J, Roberts, Todd F
Format: Article
Language:English
Subjects:
Action Potentials - physiology
Animals
Calcium - metabolism
Calcium imaging
Cortex
HVC
Learning - physiology
Male
Microscopy, Fluorescence
motor control
Motor Cortex - cytology
Motor Cortex - physiology
motor planning
Neural Pathways - cytology
Neural Pathways - physiology
Neuroimaging
neuronal sequences
Neurons
Neurons - physiology
Neuroscience
Neurosciences
Respiration
Respiratory system
Song control nuclei
songbird
Sound Spectrography
vocalization
Vocalization, Animal - physiology
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Summary:Precise neural sequences are associated with the production of well-learned skilled behaviors. Yet, how neural sequences arise in the brain remains unclear. In songbirds, premotor projection neurons in the cortical song nucleus HVC are necessary for producing learned song and exhibit precise sequential activity during singing. Using cell-type specific calcium imaging we identify populations of HVC premotor neurons associated with the beginning and ending of singing-related neural sequences. We characterize neurons that bookend singing-related sequences and neuronal populations that transition from sparse preparatory activity prior to song to precise neural sequences during singing. Recordings from downstream premotor neurons or the respiratory system suggest that pre-song activity may be involved in motor preparation to sing. These findings reveal population mechanisms associated with moving from non-vocal to vocal behavioral states and suggest that precise neural sequences begin and end as part of orchestrated activity across functionally diverse populations of cortical premotor neurons.
ISSN:2050-084X
2050-084X
DOI:10.7554/eLife.43732