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Vision rhodopsin regeneration

Bleached rhodopsin must be regenerated to maintain normal vision 809... [Pg.807]

Bleached rhodopsin must be regenerated to maintain normal vision. Regeneration occurs by several mechanisms. The major pathway occurs in the retinal pigmented... [Pg.809]

The all-fran retinal does not fit into the 11-cm retinal binding site on opsin therefore, npon isomerization the trans isomer separates from the protein. At this point an electrical impulse is generated and transmitted to the brain. In the absence of light, enzymes mediate the isomerization of all-fran retinal back to 11-cm retinal, and rhodopsin is regenerated by the binding of the cis isomer to opsin, as described above. With the completion of this step, the vision cycle can begin again. [Pg.995]

Fig. 4.18 The rhodopsin cycle. The bleaching of rhodopsin yields all-trans retinene (now more currently indicated as retinal), which must be isomerized to neoretinene b before it can regenerate the visual pigment. Alternatively, having been reduced to all trans vitamin A, the latter in turn must be isomerized to neovitamin Ab before it takes part in rhodopsin synthesis. Rod vision thus depends on the continuous stereoisomerization of all-trans retinene or vitamin A, or on the continuous replacement of these substances by new supplies of vitamin Ab from external sources (adapted from [196, 197])... Fig. 4.18 The rhodopsin cycle. The bleaching of rhodopsin yields all-trans retinene (now more currently indicated as retinal), which must be isomerized to neoretinene b before it can regenerate the visual pigment. Alternatively, having been reduced to all trans vitamin A, the latter in turn must be isomerized to neovitamin Ab before it takes part in rhodopsin synthesis. Rod vision thus depends on the continuous stereoisomerization of all-trans retinene or vitamin A, or on the continuous replacement of these substances by new supplies of vitamin Ab from external sources (adapted from [196, 197])...
The retinal pigment epithelium cells (RPE) of the retina form an epithelial cell layer that takes up retinol from choroid capillaries and stores it as retinyl esters, to be used as substrate for the generation of 11-ds-retinal. In the layer of rod and cone photoreceptor cells adjacent to the RPE, 11-ds-retinal combines covalently with the protein opsin to generate the visual pigment rhodopsin in rods and, similarly, iodopsin in cones. Each rod outer segment is densely packed with some 10 molecules of rhodopsin per cell. The small quantity of vitamin A stored in the retina would be inadequate to maintain vision were it not for the visual cycle, a process in which 11-ds-retinal is regenerated after... [Pg.442]

See other pages where Vision rhodopsin regeneration is mentioned: [Pg.728]    [Pg.735]    [Pg.675]    [Pg.749]    [Pg.710]    [Pg.728]    [Pg.616]    [Pg.561]    [Pg.561]    [Pg.561]    [Pg.561]    [Pg.331]    [Pg.236]    [Pg.90]    [Pg.118]    [Pg.497]    [Pg.1036]    [Pg.666]    [Pg.155]    [Pg.545]    [Pg.66]    [Pg.443]   
See also in sourсe #XX -- [ Pg.153 , Pg.154 , Pg.155 , Pg.156 , Pg.157 , Pg.158 , Pg.159 , Pg.160 , Pg.161 ]



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