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Reversión de la pérdida de la visión de los antepasados

Reversión de la pérdida de la visión de los antepasados

Arte conceptual submarino de la anguila

La elegante anguila ha evolucionado para ver una gama más amplia de colores, un cambio marcado de sus antepasados ​​que perdieron la visión del color debido a la adaptación a entornos con poca luz. Esta evolución involucra cuatro copias del gen de opsina SWS1, lo que brinda sensibilidad a las longitudes de onda más largas que se encuentran en sus hábitats oceánicos. Esta visión ampliada ayuda a estas serpientes marinas a distinguir mejor entre depredadores, presas y parejas potenciales.

Un nuevo estudio reveló que la serpiente marina es una serpiente venenosa[{» attribute=»»>species indigenous to the oceans of Australia and Asia, has evolved to perceive an extended color range.

A new paper in Genome Biology and Evolution, published by Oxford University Press, finds that the annulated sea snake, a species of venomous snake found in ocean waters around Australia and Asia, appears to have evolved to see an extended palette of colors after its ancestors lost that ability in response to changing environments.

Color vision in animals is primarily determined by genes called visual opsins. While there have been multiple losses of opsin genes during the evolution of tetrapods (the group including amphibians, reptiles, and mammals), the emergence of new opsin genes is extremely rare. Before this study, the only evolution  of new opsin genes within reptiles appeared to have occurred in species of  Helicops, a genus of snake from South America.

Hydrophis cyanocinctus (Annulated Sea Snake)

Hydrophis cyanocinctus (annulated sea snake). Credit: Chris Mitchell/ Genome Biology and Evolution

This study used published reference genomes to examine visual opsin genes across five ecologically distinct species of elapid snakes. The history of elapids, a family of snakes that includes cobras and mambas in addition to the annulated sea snake, presents an opportunity to investigate the molecular evolution of vision genes. Early snakes had lost two visual opsin genes during their dim-light burrowing phase and could only perceive a very limited range of colors. However, some of their descendants now occupy brighter environments; two elapid lineages have even moved from terrestrial to marine environments within the last 25 million years.

Researchers here found that the annulated sea snake possesses four intact copies of the opsin gene SWS1. Two of these genes have the ancestral ultraviolet sensitivity, and two have evolved a new sensitivity to the longer wavelengths that dominate ocean habitats. The study’s authors believe that this sensitivity may provide the snakes with better color discrimination to distinguish predators, prey and/or potential mates against colorful marine backgrounds. This is dramatically different from the evolution of opsins in mammals like bats, dolphins, and whales during ecological transitions; they experienced further opsin losses as they adapted to dim light and aquatic environments.

 “The earliest snakes lost much of their ability to see color due to their dim-light burrowing lifestyle,” said the paper’s lead author Isaac Rossetto. “However, their sea snake descendants now occupy brighter and more spectrally complex marine environments. We believe that recent gene duplications have dramatically expanded the range of colors sea snakes can see. For reference, us humans have a similarly expanded sensitivity to colors, while cats and dogs are partially color-blind much like those early snakes.”

For more on this discovery, see The Remarkable Vision Evolution of Sea Snakes.

Reference: “Functional Duplication of the Short-Wavelength-Sensitive Opsin in Sea Snakes: Evidence for Reexpanded Color Sensitivity Following Ancestral Regression” by Isaac H Rossetto, Kate L Sanders, Bruno F Simões, Nguyen Van Cao and Alastair J Ludington, 12 July 2023, Genome Biology and Evolution.
DOI: 10.1093/gbe/evad107

Funding: Australian Research Council Discovery Project

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