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Neural circuits in the mouse retina support color vision in the upper visual field

Author

Listed:
  • Klaudia P. Szatko

    (University of Tübingen
    University of Tübingen
    University of Tübingen)

  • Maria M. Korympidou

    (University of Tübingen
    University of Tübingen
    University of Tübingen)

  • Yanli Ran

    (University of Tübingen
    University of Tübingen)

  • Philipp Berens

    (University of Tübingen
    University of Tübingen
    University of Tübingen)

  • Deniz Dalkara

    (Sorbonne Université, INSERM, CNRS, Institut de la Vision)

  • Timm Schubert

    (University of Tübingen
    University of Tübingen)

  • Thomas Euler

    (University of Tübingen
    University of Tübingen
    University of Tübingen)

  • Katrin Franke

    (University of Tübingen
    University of Tübingen
    University of Tübingen)

Abstract

Color vision is essential for an animal’s survival. It starts in the retina, where signals from different photoreceptor types are locally compared by neural circuits. Mice, like most mammals, are dichromatic with two cone types. They can discriminate colors only in their upper visual field. In the corresponding ventral retina, however, most cones display the same spectral preference, thereby presumably impairing spectral comparisons. In this study, we systematically investigated the retinal circuits underlying mouse color vision by recording light responses from cones, bipolar and ganglion cells. Surprisingly, most color-opponent cells are located in the ventral retina, with rod photoreceptors likely being involved. Here, the complexity of chromatic processing increases from cones towards the retinal output, where non-linear center-surround interactions create specific color-opponent output channels to the brain. This suggests that neural circuits in the mouse retina are tuned to extract color from the upper visual field, aiding robust detection of predators and ensuring the animal’s survival.

Suggested Citation

  • Klaudia P. Szatko & Maria M. Korympidou & Yanli Ran & Philipp Berens & Deniz Dalkara & Timm Schubert & Thomas Euler & Katrin Franke, 2020. "Neural circuits in the mouse retina support color vision in the upper visual field," Nature Communications, Nature, vol. 11(1), pages 1-14, December.
  • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-17113-8
    DOI: 10.1038/s41467-020-17113-8
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    References listed on IDEAS

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    4. Paul R. Martin & Barry B. Lee & Andrew J. R. White & Samuel G. Solomon & Lukas Rüttiger, 2001. "Chromatic sensitivity of ganglion cells in the peripheral primate retina," Nature, Nature, vol. 410(6831), pages 933-936, April.
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    Cited by:

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    2. Xiangjing Wang & Chunsheng Chen & Li Zhu & Kailu Shi & Baocheng Peng & Yixin Zhu & Huiwu Mao & Haotian Long & Shuo Ke & Chuanyu Fu & Ying Zhu & Changjin Wan & Qing Wan, 2023. "Vertically integrated spiking cone photoreceptor arrays for color perception," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    3. Kit D. Longden & Edward M. Rogers & Aljoscha Nern & Heather Dionne & Michael B. Reiser, 2023. "Different spectral sensitivities of ON- and OFF-motion pathways enhance the detection of approaching color objects in Drosophila," Nature Communications, Nature, vol. 14(1), pages 1-22, December.
    4. Jérémie Sibille & Carolin Gehr & Jonathan I. Benichov & Hymavathy Balasubramanian & Kai Lun Teh & Tatiana Lupashina & Daniela Vallentin & Jens Kremkow, 2022. "High-density electrode recordings reveal strong and specific connections between retinal ganglion cells and midbrain neurons," Nature Communications, Nature, vol. 13(1), pages 1-18, December.

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