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« Previous AbstractPeripheral mechanisms of pheromone reception in moths    Next AbstractA quantitative model of odor deactivation based on the redox shift of the pheromone-binding protein im moth antennae »

Chem Senses


Title:Pheromone deactivation catalyzed by receptor molecules: a quantitative kinetic model
Author(s):Kaissling KE;
Address:"Max-Planck-Institut fur Verhaltensphysiologie Seewiesen, Starnberg, Germany. kaissling@mpi-seewiesen.mpg.de"
Journal Title:Chem Senses
Year:1998
Volume:23
Issue:4
Page Number:385 - 395
DOI: 10.1093/chemse/23.4.385
ISSN/ISBN:0379-864X (Print) 0379-864X (Linking)
Abstract:"A quantitative model of pheromone-receptor interaction and pheromone deactivation, the supposed rate-limiting processes underlying the receptor potential kinetics, is worked out for the moth Antheraea polyphemus. In this model, the pheromone interacts with the receptor molecule while bound to the reduced form of the pheromone binding protein. The receptor molecules--besides their receptor function--catalyze the observed shift of the pheromone-binding protein from the reduced to the oxidized form (Ziegelberger, G., Eur. J. Biochem., 232, 706-711, 1995), which deactivates the pheromone bound to pheromone binding protein. With the following parameters, the model fits morphological, radiometric, electrophysiological and biochemical data: a maximum estimate of 1.7 x 10(7) receptor molecules/cell (with 40,000 units/micron 2 of receptor cell membrane), rate constants k1 = 0.2/(s.microM) for the association, k2 = 10/s for the dissociation of the ternary complex of binding protein, pheromone and receptor, and k3 = 10/s for the deactivation via the redox shift. With these parameters, the duration of elementary receptor potentials elicited by single pheromone molecules (approximately 50 ms) reflects the lifetime of the ternary complex, tau = 1/(k2 + k3). The receptor occupancy produced by the model for threshold stimuli fits the sensitivity of the receptor cell to single pheromone molecules"
Keywords:"Animals Catalysis Chemoreceptor Cells/*metabolism Kinetics Models, Chemical Oxidation-Reduction Pheromones/*metabolism;"
Notes:"MedlineKaissling, K E eng Review England 1998/10/06 Chem Senses. 1998 Aug; 23(4):385-95. doi: 10.1093/chemse/23.4.385"

 
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