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Multi-area recordings and optogenetics in the awake, behaving marmoset.

Patrick JendritzaFrederike J KleinPascal Fries
Published in: Nature communications (2023)
The common marmoset has emerged as a key model in neuroscience. Marmosets are small in size, show great potential for genetic modification and exhibit complex behaviors. Thus, it is necessary to develop technology that enables monitoring and manipulation of the underlying neural circuits. Here, we describe a novel approach to record and optogenetically manipulate neural activity in awake, behaving marmosets. Our design utilizes a light-weight, 3D printed titanium chamber that can house several high-density silicon probes for semi-chronic recordings, while enabling simultaneous optogenetic stimulation. We demonstrate the application of our method in male marmosets by recording multi- and single-unit data from areas V1 and V6 with 192 channels simultaneously, and show that optogenetic activation of excitatory neurons in area V6 can influence behavior in a detection task. This method may enable future studies to investigate the neural basis of perception and behavior in the marmoset.
Keyphrases
  • high density
  • deep brain stimulation
  • small molecule
  • spinal cord
  • genome wide
  • current status
  • gene expression
  • spinal cord injury
  • human health
  • data analysis
  • risk assessment
  • drug induced