The two visual pigments of the gecko: The labile behavior

Abstract

This report describes five selected experiments that describe the labile behavior of pigment-521 of the Tokay gecko and the relatively more stable properties of the second photopigment, pigment-467, of the same retina. Prepared in the chloride-deficient state, P521 is sensitive to mild temperature increases, is destroyed by NH2OH and NaBH4 in the dark, responds top-hydroxymercuribenzoate by a spectral shift to shorter wavelengths, exchanges some of its 11 -cis retinal for the 9 -cis isomer in the dark, and reacts to added chloride and nitrate by spectral shifts to longer and shorter wavelengths, respectively. Dissolved in Triton-X-100 it is irreversibly destroyed by only moderate increases in temperature. In all these responses, chloride ions act specifically to protect the pigment. Pigment-467, in contrast, is less sensitive to temperature, is not bleached by NH2OH and NaBH4 in the dark, does not exchange its prosthetic group and responds neither to chloride nor to nitrate by the typical P521 effects. With regard to molecular stability and access to the chromophoric structure there appears to be a dual system in the gecko retina with P521 showing similarities to the cone pigment iodopsin; P467 to rhodopsin. It is pointed out that this dual system may be associated with certain responses of the gecko retina that indicate physiological duality. This is the case even though there are no rods and cones, in the classical sense, in the gecko retina.