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Analysis of Visual Collision Avoidance in Xenopus Tadpoles

  1. Arseny S. Khakhalin
  1. Biology Program, Bard College, Annandale-on-Hudson, New York 12504, USA
  1. Correspondence: khakhalin{at}bard.edu

Abstract

In teaching, the best exam questions are those that seem simple at first but can lead to deep and nuanced conversations. Similarly, to probe brain development, we should look for behaviors that are easy to evoke and quantify, but that are demanding, malleable, and inherently variable. Visual collision avoidance is an example of such a behavior; it is ecologically relevant, robust, and easy to record, but also nuanced and shaped by the sensory history of the animal. Here we describe how to set up a visual avoidance assay and how to use it to test sensory processing and sensorimotor transformations in the vertebrate brain.

Footnotes

  • From the Xenopus collection, edited by Hazel L. Sive.

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  1. Published in Advance December 3, 2020, doi: 10.1101/pdb.prot106914 Cold Spring Harb Protoc 2021: pdb.prot106914- © 2021 Cold Spring Harbor Laboratory Press
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