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Asymmetric processing of visual motion for simultaneous object and background responses.

Lisa M Fenk1, Andreas Poehlmann1, Andrew D Straw1

  • 1Research Institute of Molecular Pathology, Vienna Biocenter, Dr. Bohr-Gasse 7, 1030 Vienna, Austria.

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Summary

Drosophila visual circuits use motion-sensitive T4-T5 cells for object fixation and figure-ground discrimination. Dynamical models reveal motion asymmetry in neurons downstream of T4-T5 cells is key to these behaviors.

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Area of Science:

  • Neuroscience
  • Computational Neuroscience
  • Insect Vision

Background:

  • Visual object fixation and figure-ground discrimination are complex behaviors in Drosophila.
  • The precise neural circuits underlying these behaviors are not fully understood.
  • Previous research suggested object fixation might involve circuitry independent of motion-sensitive T4-T5 cells.

Purpose of the Study:

  • To investigate the neural substrates of visual object fixation and figure-ground discrimination in Drosophila.
  • To determine the role of motion-sensitive T4-T5 cells and downstream neurons in these behaviors.
  • To develop and test computational models predicting these visual behaviors.

Main Methods:

  • Tethered flight experiments under closed-loop conditions to assess behavioral responses.
  • Implementation of dynamical models based on neurons downstream of T4-T5 cells.
  • Comparison of model predictions with experimental observations of stripe fixation and figure-ground discrimination.

Main Results:

  • Intact T4-T5 cells were necessary for robust object fixation at higher feedback gains and for figure-ground discrimination.
  • Dynamical models, both phenomenological and physiologically realistic, predicted key features of stripe fixation and figure-ground discrimination.
  • Motion asymmetry in model neurons (stronger front-to-back than back-to-front responses) was fundamental to explaining these behaviors.
  • Models predicted fixation in front of a moving background, suggesting a unified role for these neurons in object and background processing.

Conclusions:

  • Neurons downstream of T4-T5 cells, exhibiting motion asymmetry, are crucial for object fixation and figure-ground discrimination.
  • Computational models based on these neurons successfully predict key aspects of these visual behaviors.
  • These findings suggest that neurons involved in background stabilization may also play a significant role in object-based visual behaviors.