Abstract
The variable composition of the chromophore-binding pocket in visual receptors is essential for vision. The visual phototransduction starts with the cis-trans isomerization of the retinal chromophore upon absorption of photons. Despite sharing the common 11-cis-retinal chromophore, rod and cone photoreceptors possess distinct photochemical properties. Thus, a detailed molecular characterization of the chromophore-binding pocket of these receptors is critical to understanding the differences in the photochemistry of vision between rods and cones. Unlike for rhodopsin (Rh), the crystal structures of cone opsins remain to be determined. To obtain insights into the specific chromophore-protein interactions that govern spectral tuning in human visual pigments, here we harnessed the unique binding properties of 11-cis-6-membered-ring-retinal (11-cis-6mr-retinal) with human blue, green, and red cone opsins. To unravel the specificity of the chromophore-binding pocket of cone opsins, we applied 11-cis-6mr-retinal analog-binding analyses to human blue, green, and red cone opsins. Our results revealed that among the three cone opsins, only blue cone opsin can accommodate the 11-cis-6mr-retinal in its chromophore-binding pocket, resulting in the formation of a synthetic blue pigment (B6mr) that absorbs visible light. A combination of primary sequence alignment, molecular modeling, and mutagenesis experiments revealed the specific amino acid residue 6.48 (Tyr-262 in blue cone opsins and Trp-281 in green and red cone opsins) as a selectivity filter in human cone opsins. Altogether, the results of our study uncover the molecular basis underlying the binding selectivity of 11-cis-6mr-retinal to the cone opsins.
Highlights
The variable composition of the chromophore-binding pocket in visual receptors is essential for vision
P.), and P30EY011373, CORE grant for Vision Research awarded to the Visual Sciences Research Center (VSRC) at Case Western Reserve University; a Research to Prevent Blindness (RPB) grant; the Canadian Institute for Advanced Research (CIFAR); and Alcon Research Institute (ARI)
We found that among three cone opsins, 11-cis-6mr-retinal formed a Schiff base only with blue cone opsin, resulting in the formation of pigment (B6mr) exhibiting an absorption maximum at 440 nm, and we discerned that the specific amino acid environment of the blue cone opsin chromophore-binding pocket contributed to this property
Summary
Rhodopsin; B6mr, 11-cis-6mr-retinal– bound blue cone opsin; Bistris propane, 1,3-bis[tris(hydroxymethyl)methylamino]propane; DDM, n-dodecyl -D-maltopyranoside; Meta, metarhodopsin; ROS, rod outer segment; Rh6mr, 11-cis-6mr-retinal-bound rhodopsin; TM, transmembrane; 11-cis-6mr-retinal, 11-cis-6-membered-ring-retinal; W, watt. Binding of a locked retinal analog to human cone opsins to the conclusion that the 11-cis isomer of 6mr-retinal is the most favorable configuration within the chromophore-binding pocket of Rh. In contrast to Rh, fewer studies have been conducted to unravel the molecular details of the chromophore-binding pocket of cone opsins, which is in part due to their instability in vitro. We found that among three cone opsins, 11-cis-6mr-retinal formed a Schiff base only with blue cone opsin, resulting in the formation of pigment (B6mr) exhibiting an absorption maximum at 440 nm, and we discerned that the specific amino acid environment of the blue cone opsin chromophore-binding pocket contributed to this property
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