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Fig. 3. (A) The quantity of Gq
translocated from the rhabdomere to the cell body is dependent on the intensity of illumination. Cross-sections of dark-raised wild-type flies were illuminated under the indicated light intensities for 1 hour. Sections were stained with anti-Gq antibody and quantified. Percentages of Gq remaining in the rhabdomeres after exposure to the indicated light intensities (I) were calculated, where initial light intensity (I0)=
70.0x103 lumens meter-2. Exposure to light intensities with log(I/I0) of -5 to 0 resulted in translocation of 20-75% Gq out of the rhabdomeres. SEMs are indicated. (B) Photoisomerization of metarhodopsin to rhodopsin is required for Gq transport from the cell body to the rhabdomere. Shown are retinal cross-sections immunostained for Gq. Dark-raised wild-type flies were exposed to: (1) blue (bandpass 470 nm > 
> 490 nm) light for 2 hours; (2) blue light for 2 hours followed by 2 hours of orange (long-pass > 580 nm) light; or (3) blue light for 2 hours followed by 2.5 hours of dark incubation. Dark-raised flies showed normal, rhabdomeric localization of Gq whereas flies illuminated with blue light displayed translocation of Gq into the cell body. Flies exposed to blue light followed by orange light displayed almost full recovery of Gq to the rhabdomeres. Flies exposed to blue light followed by dark incubation showed no recovery of Gq to the rhabdomeres. These results indicate that photoisomerization of metarhodopsin to rhodopsin is absolutely required for normal translocation of Gq from the cell body to the rhabdomeres.
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