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« Previous AbstractA quantitative model of odor deactivation based on the redox shift of the pheromone-binding protein im moth antennae    Next AbstractOlfactory perireceptor and receptor events in moths: a kinetic model revised »

Chem Senses


Title:Olfactory perireceptor and receptor events in moths: a kinetic model
Author(s):Kaissling KE;
Address:"Max-Planck-Institut fuer Verhaltensphysiologie Seewiesen, 82319 Starnberg, Germany. Kaissling@mpi-seewiesen.mpg.de"
Journal Title:Chem Senses
Year:2001
Volume:26
Issue:2
Page Number:125 - 150
DOI: 10.1093/chemse/26.2.125
ISSN/ISBN:0379-864X (Print) 0379-864X (Linking)
Abstract:"A mathematical model of perireceptor and receptor events has been developed for olfactory sensilla on the antennae of the moth Antheraea polyphemus. The model includes the adsorptive uptake of pheromone molecules by the olfactory hair, their transport on and within the hair by diffusion, the formation of a complex of pheromone and the extracellular pheromone-binding protein (PBP), the interaction of the complex pheromone-PBP with the hypothetical receptor molecule on the plasma membrane of the olfactory cell, the deactivation of the pheromone and, finally, its enzymatic degradation. In the model the PBP with its reduced form (with one or two intramolecular disulfide bonds) first acts as a carrier of the odorant. Later, while the pheromone is bound, it changes to an oxidized form (three disulfide bonds) with a scavenger function (carrier-to-scavenger model). This process of pheromone deactivation rather than the enzymatic pheromone degradation is responsible for the fall of the receptor potential after stimulus offset. The model is based on morphometrical, radiometrical, electrophysiological and biochemical data reported by several authors. The study supports the idea that peripheral events rather than intracellular signalling processes govern the kinetics of the receptor potential in the unadapted receptor cell"
Keywords:"Animals Biological Transport, Active Carrier Proteins/physiology Chemoreceptor Cells/physiology *Insect Proteins Kinetics Membrane Potentials *Models, Biological Moths/*physiology Olfactory Receptor Neurons/*physiology Oxidation-Reduction Pheromones/physi;"
Notes:"MedlineKaissling, K E eng England 2001/03/10 Chem Senses. 2001 Feb; 26(2):125-50. doi: 10.1093/chemse/26.2.125"

 
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