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[-] Sal@mander.xyz 3 points 8 months ago

From the title I thought that the UV opsin itself was also performing the pressure sensing function... Which would be fascinating to me, as I have worked with viscosity and pressure-sensitive fluorophores in the past (BODIPYs and DCDHF), and I would love to see living things making use of this molecular sensor design.

But I now see that it is a different molecular sensor that is also present in the UV sensing cell:

Our results indicate that the ciliary opsin required for detecting UV light is not essential for pressure sensation.

So, today is not the day we find pressure-sensitive fluorescent sensors in a living organism, but that is still a fascinating finding. I will have to read more about those "TRP channels", the "ultimate integrators of sensory stimuli". They seem like a very interesting class of bio molecules that I still know too little about 😁

Really nice work, thanks a lot for sharing it here!!

[-] jekely@biologists.social 4 points 8 months ago

@Sal Thank you! Indeed, the opsin is not the sensor, but we can use a mutation in the opsin gene to disrupt the ciliary superstructure and then we see a phenotype in pressure sensing, and also in UV light sensing, as we previously described: https://elifesciences.org/articles/36440

this post was submitted on 18 Mar 2024
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