AI Article Synopsis
- Rods in the eye are responsible for scotopic vision (seeing in dim light) due to their low background noise and unique characteristics compared to cone pigments.
- Frogs and nocturnal geckos have special rods with noncanonical cone pigments that mimic rhodopsin, allowing them to see well in dark conditions.
- The research found that the speed of activation (thermal activation rate) of these pigments is lower than expected based on their light absorption properties, suggesting that evolution has favorably shaped these pigments for enhanced night vision.
Article Abstract
High sensitivity of scotopic vision (vision in dim light conditions) is achieved by the rods' low background noise, which is attributed to a much lower thermal activation rate (k) of rhodopsin compared with cone pigments. Frogs and nocturnal geckos uniquely possess atypical rods containing noncanonical cone pigments that exhibit low k, mimicking rhodopsin. Here, we investigated the convergent mechanism underlying the low k of rhodopsins and noncanonical cone pigments. Our biochemical analysis revealed that the k of canonical cone pigments depends on their absorption maximum (λ). However, rhodopsin and noncanonical cone pigments showed a substantially lower k than predicted from the λ dependency. Given that the λ is inversely proportional to the activation energy of the pigments in the Hinshelwood distribution-based model, our findings suggest that rhodopsin and noncanonical cone pigments have convergently acquired low frequency of spontaneous-activation attempts, including thermal fluctuations of the protein moiety, in the molecular evolutionary processes from canonical cone pigments, which contributes to highly sensitive scotopic vision.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11007431 | PMC |
| http://dx.doi.org/10.1016/j.jbc.2024.107175 | DOI Listing |
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