Photoconvertible pigment states and excitation in Calliphora; the induction and properties of the prolonged depolarising afterpotential

1. The proposed models of two independent groups, which relate the different states of the visual pigment to the excitation of the membrane in invertebrate photoreceptors (with particular reference to the prolonged depolarising afterpotential, the PDA) are compared and evaluated. 2. The validity of...

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Bibliographic Details
Published in:Biophysics of Structure and Mechanism 1979, Vol.5 (2/3), p.137-161
Main Authors: Hamdorf, K, Razmjoo, S
Format: Article
Language:English
Subjects:
Action Potentials - physiology
Animals
arthropods
entomology
Insecta - physiology
insects
Long-Term Potentiation - physiology
Membrane Potentials - physiology
Models, Biological
Photoreceptor Cells, Invertebrate - physiology
Retinal Pigments - physiology
Vision, Ocular - physiology
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Summary:1. The proposed models of two independent groups, which relate the different states of the visual pigment to the excitation of the membrane in invertebrate photoreceptors (with particular reference to the prolonged depolarising afterpotential, the PDA) are compared and evaluated. 2. The validity of the late receptor potential (the "normal" receptor response) as an index of photoreceptor sensitivity, i.e., an index of the number of rhodopsin to metarhodopsin transitions, is verified by concurrent spectrophotometry. 3. Electrophysiological observations alone allow the calculation of 1.3 x 10(8) photopigment molecules in the rhabdom of an R1-6 photoreceptor of a vitamin A-bred Calliphora. 4. The PDA is shown to be quantifiable in terms of the number of rhodopsin to metarhodopsin conversions by the absorption of single light quanta. 5. The comparison of discrete membrane fluctuations (quantum bumps) during the PDA and during exposure to sustained light stimuli that mimic the PDA suggest that, the PDA, similar to the late receptor potential, may be due to the summation of quantum bumps.
ISSN:0340-1057
1432-1017
DOI:10.1007/BF00535444