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September 21, 2021
International News

Scientists learn how some fish can supercharge their vision

Image:Tasmanian salmon swim in a pond, which can hold up to 40,000 fish, during a daily inspection of the nets at a Tasmanian salmon farm owned by Huon Aquaculture Group Ltd located at Hideaway Bay, south of Hobart in this June 2, 2014, file photo. REUTERS/David Gray/Files


By Will Dunham

WASHINGTON (Reuters) – Superman can use his X-ray vision whenever the need arises. It turns out that in real life, some fish and amphibians can do something nearly as super when it come to their sight.
Researchers on Thursday said these animals, when navigating murky freshwater environments like rivers and streams, can turn on an enzyme in their eyes that supercharges their ability to see infrared light, sharpening their vision in the muck and mire.

The enzyme, called Cyp27c1, is related to vitamin A, which was already known to promote good vision, particularly in low light.

Vitamin A is a critical component of the visual pigment in eyes that facilitates sight. With the enzyme, fish and amphibians can tune their vision to match the environmental light.

Chemically, Cyp27c1 makes a small modification on the molecule of the form of Vitamin A called Vitamin A1 to turn it into Vitamin A2, shifting sensitivity of eye photoreceptors to longer wavelengths such as red and infrared light.

This explains how freshwater fish like salmon can smoothly adjust their vision as they exit ocean waters, where the light environment is blue-green, and enter inland waterways, where the light environment veers to the red and infrared end of the spectrum.

This ability is also valuable for amphibians that switch from vision on land to underwater.
“Fresh water tends to be more turbid or murkier than these other environments. This murkiness filters out shorter wavelengths of light – blue, greens, and yellows – leaving mainly longer wavelengths – red and infrared light,” said pathologist and vision scientist Dr. Joseph Corbo of Washington University School of Medicine in St. Louis.

“We don’t know when in the course of evolution the Cyp27c1 enzyme first acquired the function it has today,” Corbo said. “However, the fact that the same enzyme is used by both fish and amphibians suggests that this function originated hundreds of millions of years ago.”
The researchers first pinpointed the enzyme in a common laboratory fish called the zebrafish, then found it in bullfrogs. Humans possess a copy of the gene that controls this enzyme, but it is not active in our eyes.

Corbo said the enzyme possibly could be used in conjunction with optogenetic devices, which allow scientists to turn the activity of neurons on and off with light, in a new approach to treat neurological and blinding diseases.

The research was published in the journal Current Biology.

(Reporting by Will Dunham; Editing by Sandra Maler)

Copyright 2015 Thomson Reuters. Click for Restrictions.

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