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Wiley InterScience | ||||||||||||||||
  Insect Molecular BiologyVolume 12 Issue 6, Pages 641 - 650 Published Online: 18 Nov 2003 Journal compilation © 2009 Royal Entomological Society
Abstract | References | Full Text: HTML, PDF (Size: 2106K) | Related Articles | Citation Tracking  Molecular characterization of arrestin family members in the malaria vector mosquito, Anopheles gambiae Copyright © 2003 The Royal Entomological Society KEYWORDS
Anopheles
• olfactory • arrestin • malaria Abstract
Olfaction influences many insect behaviours including mate seeking and host selection. The molecular machinery underlying insect olfactory systems is a G protein-coupled receptor pathway that, in addition to activation, requires adaptation for olfactory sensitivity and discrimination. We have previously identified ARR1 (henceforth AgARR1), a sensory arrestin from the malaria vector mosquito Anopheles gambiae that has been postulated to modulate olfactory adaptation. This report describes three additional arrestin family members including ARR2 (henceforth AgARR2), which is similar to previously characterized insect sensory arrestins and is expressed at significantly higher levels in the antennae of male vs. female A. gambiae mosquitoes. This finding is consistent with the hypothesis that AgARR2 may be important for the regulation of olfactory-driven behaviours particular to male mosquitoes. Received 26 March 2003; accepted after revision 5 August 2003. | 
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