Publications by authors named "Thijs L van der Plas"
Trial-averaged metrics, e.g. tuning curves or population response vectors, are a ubiquitous way of characterizing neuronal activity.
View Article and Find Full Text PDFBrains are composed of anatomically and functionally distinct regions performing specialized tasks, but regions do not operate in isolation. Orchestration of complex behaviors requires communication between brain regions, but how neural dynamics are organized to facilitate reliable transmission is not well understood. Here we studied this process directly by generating neural activity that propagates between brain regions and drives behavior, assessing how neural populations in sensory cortex cooperate to transmit information.
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- The brain's endogenous activity is influenced by the arrangement and interaction of neurons in assemblies, but how this affects overall brain data statistics was unclear.
- Researchers recorded the activity of about 40,000 neurons in zebrafish larvae and used a model called the compositional Restricted Boltzmann Machine (cRBM) to analyze the data.
- This model successfully identified around 200 neural assemblies, allowing for insights into brain states and connectivity, and it can be applied to data from other large-scale neuronal recording methods.
The vestibular apparatus provides animals with postural and movement-related information that is essential to adequately execute numerous sensorimotor tasks. In order to activate this sensory system in a physiological manner, one needs to macroscopically rotate or translate the animal's head, which in turn renders simultaneous neural recordings highly challenging. Here we report on a novel miniaturized, light-sheet microscope that can be dynamically co-rotated with a head-restrained zebrafish larva, enabling controlled vestibular stimulation.
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