Your search keyword '"Coulangeon LM"' showing total 3 results

1. [Adapto-electroretinographic study of regeneration of the visual pigments in the fauve de Bourgogne and albino rabbit after photobleaching with monochromatic light].

Author

Coulangeon LM, Guyot G, Sole P, Lemaire J, Nhamias S, and Giraud JM

Subjects

Adaptation, Physiological, Animals, Kinetics, Photic Stimulation, Photoreceptor Cells physiology, Photoreceptor Cells radiation effects, Rabbits, Retinal Pigments radiation effects, Rhodopsin metabolism, Electroretinography methods, Light adverse effects, Regeneration radiation effects, Retinal Pigments metabolism

Abstract

Kinetics of rod pigment regeneration were studied in vivo in Fauve de Bourgogne and Albino rabbits by adapto-electroretinography (AERG). Electroretinography in the rabbit using polychromatic flashes affords the means to dissociate the response of the cones (a-wave, b1-wave: photopic function), from that of the rods (b2-wave scotopic function). After photobeachting, electroretinograms were recorded at two minutes' intervals during dark adaptation of one hour duration. Variations of b2/b1 with time of dark adaptation provide an adapto-electroretinogram giving relative measurements of rod pigment concentration at various stages of regeneration. In the present study, photobleaching was provoked by monochromatic light (at 405, 436 and 546 nm) actinometrically controlled. Studies were conducted in two Fauve de Bourgogne and two Albino rabbits. The effect of four doses, varying from 4.10(17) photon.cm-2 to 1.10(19) photon.cm-2, was measured at each wavelength on the AERG in the four rabbits. First order kinetics for rod pigment regeneration were observed, mainly at 546 nm and at high dose levels: overall regeneration rate is apparently controlled by the isomerization step. For Fauve de Bourgogne and Albino rabbits, the regeneration rate depends on the bleaching wavelength and on the dose. At high dose levels and for long wavelengths, delayed recoveries are observed in the Fauve de Bourgogne animals. However, durations of delays are shorter with monochromatic light experiments than with polychromatic light bleaching, at the same dose. Differences of ocular media transmission may be responsible for a faster regeneration process at shorter than at longer wavelengths.

Published

1983

2. [Photobleaching quantum yields of visual pigments in the "fauve de Bourgogne" and "albino" rabbit (author's transl)].

Author

Coulangeon LM, Tronche P, Sole P, and Lemaire J

Subjects

Animals, Cattle, Detergents, Digitonin pharmacology, Kinetics, Melanins analysis, Photolysis, Pigment Epithelium of Eye pathology, Rabbits, Retina analysis, Rhodopsin analysis, Spectrophotometry, Light, Retinal Pigments radiation effects

Abstract

Photobleaching quantum yields of visual pigments extracted from retinas of the "fauve de bourgogne" and "albino" rabbit were measured in monochromatic light. For the "fauve de Bourgogne" rabbit, the photobleaching quantum yield was to be 0.65 at different excitation wavelengths (546, 491.6 and 436 nm); at shorter wavelengths, this quantum yield was lower ie. 0.36 at 405 nm. This wavelength effect has been observed on visual pigments extracted from bees retina. In contrast, in the "albino" rabbit, the photobleaching quantum yield was constant and equal to 0.31 whatever the excitation wavelength between 546 and 405 mn.

Published

1982

3. [Photochemistry of visual pigments (author's transl)].

Author

Coulangeon LM, Sole P, and Lemaire J

Subjects

Animals, Cattle, Chemical Phenomena, Chemistry, Molecular Conformation, Photochemistry, Photoreceptor Cells physiology, Protons, Rabbits, Retinal Pigments physiology, Rhodopsin physiology, Vision, Ocular, Retinal Pigments radiation effects

Abstract

Recent studies of the photochemistry of visual pigments are reported. Results obtained on rhodopsine and model compounds, by means of techniques based upon continous or pulsed excitation are compared. The mechanique of the primary photochemical step of the bleaching of rhodopsine is discussed. The process is occuring on a time scale of picosecond and a new concept of proton transfer followed by a conformation charge is opposed to the classical cis-trans photo isomerisation of the retinal moiety. The origin of the electrical response of the photoreceptor cells is still controversial.

Published

1979