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Tracing the evolution of vision... in fruit flies


The function of the visual photopigment rhodopsin and its action in the retina to facilitate vision is well understood. However, there remain questions about other biological functions of this family of proteins (opsins) and this has ramifications for our understanding of several evolutionary pathways. Now, an international research team led by the University of Gottingen has shown there are other functions of opsin outside vision and this provides insights into how the eye evolved. Their research was published in Current Biology.

Tracing the evolution of vision... in fruit flies
Fruit fly: the antennae, that sit between the eyes, function as ears
[Credit: Miriam Berger & Dr Bart Geurten]
Vision relies on rhodopsins, which are made from proteins (opsins) that bind with "retinal" (a small molecule derived from vitamin A). This molecule changes its structure when stimulated by light and enables us to see: without retinal, photoreceptor cells die and there is no vision. Intriguingly, in the fruit fly Drosophila, the same opsin proteins that enable vision also occur in the ear. Researchers from the Department of Cellular Neurobiology and the Institute of Molecular and Cellular Physics of the University of Gottingen therefore asked if these auditory receptors were light-sensitive, i.e. could the ears of this fly also sense light?


The researchers quickly discovered that the fly's ear could not function as an eye. What the researchers deduced, however, is a completely new function of opsins independent from the molecule retinal and from the functioning of the eye. They tested this by making vitamin A unavailable to Drosophila through various experiments: taking vitamin A out of the fly's diet; disrupting the transport protein that mediates vitamin A uptake into gut cells; and blocking the enzyme that converts vitamin A into retinal. This rendered the insects blind -- but they did not become deaf.

Together with colleagues in the US, the researchers then manipulated the opsins so that they could no longer bind with retinal. As expected, this made the flies blind, but again their hearing remained intact. This showed that the fruit fly requires opsins (but not retinal) for hearing, adding a new twist to the function of photopigment proteins.

The real surprise came when the scientists looked at those enzymes that, in the eye, recycle light-activated retinal back into its light-sensitive form. All those enzymes turned out to occur in the fly's ear as well as the eye and were essential for hearing, even though hearing works without retinal. Hence, not only opsins, but also all the retinal-enzymes, have other important biological functions that are independent of vision.


"From an evolutionary perspective, this is quite striking," explains Dr Radoslaw Katana, the first author of the study. "The receptor cells for vision and hearing are derived from common ancestor cells, which seem to have used opsins and retinal-enzymes even before vision and hearing were possible. This is also the case in vertebrates: opsins occur in mechanoreceptor cells and many of the retinal-enzymes have remained essentially unchanged throughout evolution and are also implicated in human hearing."

"The retinal cycle in the eye is the most thoroughly studied biological signalling cascade," remarks Professor Martin Gopfert. "It now seems that its molecular components originally had nothing to do with the eye or light, revolutionising our understanding of the early evolution of vision."

Source: University of Gottingen [August 22, 2019]

TANN

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