PMID: 20923672

Authors:

Makino CL, Riley CK, Looney J, Crouch RK, Okada T

Title:

Binding of more than one retinoid to visual opsins.

Journal:

Biophys J. 2010 Oct 6;99(7):2366-73.

Abstract:

Visual opsins bind 11-cis retinal at an orthosteric site to form rhodopsins but increasing evidence suggests that at least some are capable of binding an additional retinoid(s) at a separate, allosteric site(s). Microspectrophotometric measurements on isolated, dark-adapted, salamander photoreceptors indicated that the truncated retinal analog, beta-ionone, partitioned into the membranes of green-sensitive rods; however, in blue-sensitive rod outer segments, there was an enhanced uptake of four or more beta-ionones per rhodopsin. X-ray crystallography revealed binding of one beta-ionone to bovine green-sensitive rod rhodopsin. Cocrystallization only succeeded with extremely high concentrations of beta-ionone and binding did not alter the structure of rhodopsin from the inactive state. Salamander green-sensitive rod rhodopsin is also expected to bind beta-ionone at sufficiently high concentrations because the binding site is present on its surface. Therefore, both blue- and green-sensitive rod rhodopsins have at least one allosteric binding site for retinoid, but beta-ionone binds to the latter type of rhodopsin with low affinity and low efficacy.