Author
Listed:
- Katrin Franke
(Tübingen University
Tübingen University
Baylor College of Medicine
Baylor College of Medicine)
- Konstantin F. Willeke
(Tübingen University
Göttingen University)
- Kayla Ponder
(Baylor College of Medicine
Baylor College of Medicine)
- Mario Galdamez
(Baylor College of Medicine
Baylor College of Medicine)
- Na Zhou
(Baylor College of Medicine
Baylor College of Medicine)
- Taliah Muhammad
(Baylor College of Medicine
Baylor College of Medicine)
- Saumil Patel
(Baylor College of Medicine
Baylor College of Medicine)
- Emmanouil Froudarakis
(Baylor College of Medicine
Baylor College of Medicine
Foundation for Research and Technology Hellas)
- Jacob Reimer
(Baylor College of Medicine
Baylor College of Medicine)
- Fabian H. Sinz
(Baylor College of Medicine
Baylor College of Medicine
Tübingen University
Göttingen University)
- Andreas S. Tolias
(Baylor College of Medicine
Baylor College of Medicine
Rice University)
Abstract
To increase computational flexibility, the processing of sensory inputs changes with behavioural context. In the visual system, active behavioural states characterized by motor activity and pupil dilation1,2 enhance sensory responses, but typically leave the preferred stimuli of neurons unchanged2–9. Here we find that behavioural state also modulates stimulus selectivity in the mouse visual cortex in the context of coloured natural scenes. Using population imaging in behaving mice, pharmacology and deep neural network modelling, we identified a rapid shift in colour selectivity towards ultraviolet stimuli during an active behavioural state. This was exclusively caused by state-dependent pupil dilation, which resulted in a dynamic switch from rod to cone photoreceptors, thereby extending their role beyond night and day vision. The change in tuning facilitated the decoding of ethological stimuli, such as aerial predators against the twilight sky10. For decades, studies in neuroscience and cognitive science have used pupil dilation as an indirect measure of brain state. Our data suggest that, in addition, state-dependent pupil dilation itself tunes visual representations to behavioural demands by differentially recruiting rods and cones on fast timescales.
Suggested Citation
Katrin Franke & Konstantin F. Willeke & Kayla Ponder & Mario Galdamez & Na Zhou & Taliah Muhammad & Saumil Patel & Emmanouil Froudarakis & Jacob Reimer & Fabian H. Sinz & Andreas S. Tolias, 2022.
"State-dependent pupil dilation rapidly shifts visual feature selectivity,"
Nature, Nature, vol. 610(7930), pages 128-134, October.
Handle:
RePEc:nat:nature:v:610:y:2022:i:7930:d:10.1038_s41586-022-05270-3
DOI: 10.1038/s41586-022-05270-3
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Citations
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Cited by:
- Tianye Wang & Tai Sing Lee & Haoxuan Yao & Jiayi Hong & Yang Li & Hongfei Jiang & Ian Max Andolina & Shiming Tang, 2024.
"Large-scale calcium imaging reveals a systematic V4 map for encoding natural scenes,"
Nature Communications, Nature, vol. 15(1), pages 1-15, December.
- Xiumin Li & Wanyan Lin & Hao Yi & Lei Wang & Jiawei Chen, 2023.
"A Visually Inspired Computational Model for Recognition of Optic Flow,"
Mathematics, MDPI, vol. 11(23), pages 1-13, November.
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