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Horizontal cell connectivity in the anchovy retina—a 3D electron microscopic study

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Publicat a:BMC Biology vol. 23 (2025), p. 1
Autor principal: Guder, Petra
Altres autors: Scheungrab, Max, Kohnert, Peter, Kolyfetis, Georgios, Wanner, Gerhard, Heß, Martin
Publicat:
Springer Nature B.V.
Matèries:
Color vision
Fine structure
Scanning electron microscopy
Photoreceptors
Retina
Computer terminals
Lamellae
Vertebrates
Presynapse
Anchovies
Polarization
Horizontal cells
Neurons
Cones
Electron microscopy
Image reconstruction
Neural networks
Ultrastructure
Wiring
Light
Rod outer segment membranes
Engraulis encrasicolus
Accés en línia:Citation/Abstract
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Resum:BackgroundBlock-face scanning electron microscopy has opened a new era of connectomics research, in which it is possible to make dense reconstructions of all cells in a clipping of a neuronal network, such as the retina, resolving synaptic contacts. Anchovies, exceptionally abundant marine teleosts, have retinae with regions for triple cone-based color vision and a region with specialized cone photoreceptors, so-called polycones, made of long and short cones with axially oriented outer segment lamellae for polarization contrast vision. This modality, discovered in the 1970s, is unique in vertebrates, but the neural wiring for contrast generation in deeper retinal layers is unknown so far.ResultsTo elucidate the retinal connectomics of the European anchovy Engraulis encrasicolus (Linnaeus, 1758), in a first project, we investigated the shapes and cone-specific wiring rules of 3 horizontal cell types using volume electron microscopy and subsequent computer-aided reconstruction: H1 cells contact both cone types of the polycone, H2 cells contact only the short cones, and H3 cells are exclusively connected to rods. In addition, a distinctive double band of Müller fibers and a layer of H1 axon terminals were structurally clarified.ConclusionsThe findings suggest that (1) the monochromatic polarization contrast system based on fine structure specializations in the outer retina is connected to an inherited (bichromatic) color contrast mechanism in the inner retina, (2) the anchovy polycones arose from red (now long) and green (now short) cones, and (3) the blue single cones disappeared in the relevant retinal region.
ISSN:1741-7007
DOI:10.1186/s12915-025-02242-7
Font:Health & Medical Collection