Functional Development of the Octenol Response in Aedes aegypti

Attraction of female Aedes aegypti mosquitoes to 1-octen-3-ol (octenol), CO2, lactic acid, or ammonia emitted by vertebrate hosts is not only contingent on the presence of odorants in the environment, but is also influenced by the insect s physiological state. For anautogenous mosquito species, like...

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Hauptverfasser:	Bohbot, Jonathan D, Durand, Nicolas F, Vinyard, Bryan T, Dickens, Joseph C
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Sprache:	eng
Schlagworte:	AEDES AEGYPTI AMMONIA Anatomy and Physiology ATTENTION BEHAVIORAL SCIENCES BIOASSAY Biology CARBON DIOXIDE CULICIDAE DEVELOPMENT ELECTROPHYSIOLOGY GENE EXPRESSION GUSTATORY RECEPTORS LACTIC ACID NERVE CELLS OCTENOL ODORANT RECEPTORS ODORS OLFACTION OLFACTORY NERVE ORN(OLFACTORY RECEPTOR NEURONS) RIBONUCLEIC ACIDS
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creator	Bohbot, Jonathan D Durand, Nicolas F Vinyard, Bryan T Dickens, Joseph C
description	Attraction of female Aedes aegypti mosquitoes to 1-octen-3-ol (octenol), CO2, lactic acid, or ammonia emitted by vertebrate hosts is not only contingent on the presence of odorants in the environment, but is also influenced by the insect s physiological state. For anautogenous mosquito species, like A. aegypti, newly emerged adult females neither respond to host odors nor engage in blood-feeding; the bases for these behaviors are poorly understood. Here we investigated detection of two components of an attractant blend emitted by vertebrate hosts, octenol, and CO2, by female A. aegypti mosquitoes using electrophysiological, behavioral, and molecular approaches. An increase in sensitivity of octenol olfactory receptor neurons (ORNs) was correlated with an increase in odorant receptor gene (Or) expression and octenol-mediated attractive behavior from day 1 to day 6 post-emergence. While the sensitivity of octenol ORNs was maintained through day 10, behavioral responses to octenol decreased as did the ability of females to discriminate between octenol and octenol+CO2. Our results show differing age-related roles for the peripheral receptors for octenol and higher order neural processing in the behavior of female mosquitoes. Published in Frontiers in Physiology, v4 article 39, 7 Mar 2013. Sponsored in part by the Deployed War Fighter Protection (DWFP) Research Program.
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For anautogenous mosquito species, like A. aegypti, newly emerged adult females neither respond to host odors nor engage in blood-feeding; the bases for these behaviors are poorly understood. Here we investigated detection of two components of an attractant blend emitted by vertebrate hosts, octenol, and CO2, by female A. aegypti mosquitoes using electrophysiological, behavioral, and molecular approaches. An increase in sensitivity of octenol olfactory receptor neurons (ORNs) was correlated with an increase in odorant receptor gene (Or) expression and octenol-mediated attractive behavior from day 1 to day 6 post-emergence. While the sensitivity of octenol ORNs was maintained through day 10, behavioral responses to octenol decreased as did the ability of females to discriminate between octenol and octenol+CO2. Our results show differing age-related roles for the peripheral receptors for octenol and higher order neural processing in the behavior of female mosquitoes. Published in Frontiers in Physiology, v4 article 39, 7 Mar 2013. 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For anautogenous mosquito species, like A. aegypti, newly emerged adult females neither respond to host odors nor engage in blood-feeding; the bases for these behaviors are poorly understood. Here we investigated detection of two components of an attractant blend emitted by vertebrate hosts, octenol, and CO2, by female A. aegypti mosquitoes using electrophysiological, behavioral, and molecular approaches. An increase in sensitivity of octenol olfactory receptor neurons (ORNs) was correlated with an increase in odorant receptor gene (Or) expression and octenol-mediated attractive behavior from day 1 to day 6 post-emergence. While the sensitivity of octenol ORNs was maintained through day 10, behavioral responses to octenol decreased as did the ability of females to discriminate between octenol and octenol+CO2. Our results show differing age-related roles for the peripheral receptors for octenol and higher order neural processing in the behavior of female mosquitoes. Published in Frontiers in Physiology, v4 article 39, 7 Mar 2013. 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For anautogenous mosquito species, like A. aegypti, newly emerged adult females neither respond to host odors nor engage in blood-feeding; the bases for these behaviors are poorly understood. Here we investigated detection of two components of an attractant blend emitted by vertebrate hosts, octenol, and CO2, by female A. aegypti mosquitoes using electrophysiological, behavioral, and molecular approaches. An increase in sensitivity of octenol olfactory receptor neurons (ORNs) was correlated with an increase in odorant receptor gene (Or) expression and octenol-mediated attractive behavior from day 1 to day 6 post-emergence. While the sensitivity of octenol ORNs was maintained through day 10, behavioral responses to octenol decreased as did the ability of females to discriminate between octenol and octenol+CO2. Our results show differing age-related roles for the peripheral receptors for octenol and higher order neural processing in the behavior of female mosquitoes. 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subjects	AEDES AEGYPTI AMMONIA Anatomy and Physiology ATTENTION BEHAVIORAL SCIENCES BIOASSAY Biology CARBON DIOXIDE CULICIDAE DEVELOPMENT ELECTROPHYSIOLOGY GENE EXPRESSION GUSTATORY RECEPTORS LACTIC ACID NERVE CELLS OCTENOL ODORANT RECEPTORS ODORS OLFACTION OLFACTORY NERVE ORN(OLFACTORY RECEPTOR NEURONS) RIBONUCLEIC ACIDS
title	Functional Development of the Octenol Response in Aedes aegypti
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