ISSN:
1432-1017
Keywords:
Calliphora
;
Photoreceptors
;
Visual pigments
;
Prolonged depolarizing afterpotential
;
Light adaptation
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
,
Physics
Notes:
Abstract Comparison of flies bred on vitamine A-poor and vitamine A-rich diets show the latter to exhibit, after blue illumination, 1) slight deviation from the linear relationship between stimulus intensity and receptor sensitivity and, 2) after intense blue illumination the phenomenon of the PDA. Both these effects could result from reduced pigment distances in such membranes. Maximum PDA was produced after about 20 s of illumination with blue light, and following this the resistance of the membrane was seen to stay low, returning to the resting value at the same rate as the PDA decline. The response to test flashes, repressed during illumination, gradually returned during the decline of the PDA, similar to the way the photoreceptor would respond to the sum of two stimuli: the test flash and a decreasing background illumination. Red light immediately following blue abolished the PDA and white light produced a small PDA. All these experiments corroborate a new model (without resorting to the concept of inhibitors) which links the photopigments with receptor excitation, the assumptions for which are the following: 1) PDA is produced after abnormally high primary quantum absorption by rhodopsin molecules, 2) PDA is a retarded membrane excitation by a substance in stored form, 3) the store is built up when production of this substance is larger than its consumption, and 4) time and energy are necessary for the regeneration of excitatory rhodopsin molecules.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00535813
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