Steven C. Torres scite author profile

Steven C. Torres

3Publications

59Citation Statements Received

96Citation Statements Given

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California State University, Dominguez Hills

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Retinoid cycling proteins redistribute in light‐/dark‐adapted octopus retinas

Robles

Camacho

Torres

et al. 1995

J of Comparative Neurology

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In cephalopods, the complex rhodopsin-retinochrome system serves to regenerate metarhodopsin and metaretinochrome after illumination. In the dark, a soluble protein, retinal-binding protein (RALBP), shuttles 11-cis retinal released from metaretinochrome located in the photoreceptor inner segments to metarhodopsin present in the rhabdoms. While in the rhabdoms, RALBP delivers 11-cis retinal to regenerate rhodopsin and in turn binds the all-trans isomer released by metarhodopsin. RALBP then returns all-trans retinal to the inner segments to restore retinochrome. The conventional interpretation of retinoid cycling is contradicted by immunocytochemical studies showing that, in addition to rhodopsin, retinochrome is present in the rhabdomal compartment, making possible the direct exchange of chromophores between the metapigments with the potential exclusion of RALBP. By using immunofluorescence and laser scanning confocal microscopy, we have precisely located opsin, aporetinochrome, and RALBP in light-/dark-adapted octopus retinas. We found differences in the distribution of all three proteins throughout the retina. Most significantly, comparison of cross sections though light- and dark-adapted rhabdoms showed a dramatic shift in position of the proteins. In the dark, opsin and retinochrome colocalized at the base of the rhabdomal microvilli. In the light, opsin redistributed along the length of the microvillar membranes, and retinochrome retreated to a location that is perhaps extracellular. RALBP was present in the core cytoplasm of the photoreceptor outer segments in the dark, and RALBP moved to the periphery in the light. Because of the colocalization of opsin and retinochrome in the dark, we believe that the two metapigments participate directly in chromophore exchange. RALBP may serve to transport additional chromophore from the inner segments to the rhabdoms and may not be immediately involved in the exchange process.

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Light-/dark-induced changes in rhabdom structure in the retina of Octopus bimaculoides

Torres

Camacho

Matsumoto

et al. 1997

Cell and Tissue Research

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We examined rhabdom structure and the distribution of filamentous actin in the photoreceptor outer segments of the retina of Octopus bimaculoides. Animals were dark- or light-adapted, fixed, embedded and sectioned for light and electron microscopy. Statistical analyses were used to compare relative cross-sectional areas of rhabdom microvilli and core cytoplasm within and between the two lighting conditions. Dark-/light-adapted rhabdoms were also prepared for confocal laser scanning microscopy and labeled with fluorescence-tagged phalloidin. Results show differences in the morphology of dark- and light-adapted octopus rhabdoms with the cross-sectional areas of the rhabdoms increasing in dark-adapted retinas and diminishing in the light. Comparisons between the lighting conditions show that an avillar portion of the photoreceptor outer segment membrane, prominent in the light-adapted retina, is recruited to form new rhabdomere microvilli in dark-adapted eyes. Filamentous actin was associated with the avillar membrane in light-adapted retinas, which may indicate that actin and other microvillus core proteins remain linked to the avillar membrane to support rapid microvillus formation in the dark. Photopigment redistributions also occur in light- and dark-adapted retinas, and this study suggests that these changes must be coordinated with the simultaneous breakdown and reformation of the rhabdomere microvilli.

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Immunocytochemical localization of retinal binding protein in the octopus retina: A shuttle protein for 11-cis retinal

Molina

Torres

Hara

et al. 1992

Experimental Eye Research

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Steven C. Torres

Retinoid cycling proteins redistribute in light‐/dark‐adapted octopus retinas

Light-/dark-induced changes in rhabdom structure in the retina of Octopus bimaculoides

Immunocytochemical localization of retinal binding protein in the octopus retina: A shuttle protein for 11-cis retinal

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