Litcius/Paper detail

Structural basis of odor sensing by insect heteromeric odorant receptors

Jiawei Zhao, Andy Quaen Chen, Jae-Wook Ryu, Josefina del Mármol

2024Science123 citationsDOIOpen Access PDF

Abstract

Most insects, including human-targeting mosquitoes, detect odors through odorant-activated ion channel complexes consisting of a divergent odorant-binding subunit (OR) and a conserved co-receptor subunit (Orco). As a basis for understanding how odorants activate these heteromeric receptors, we report here cryo–electron microscopy structures of two different heteromeric odorant receptor complexes containing ORs from disease-vector mosquitos Aedes aegypti or Anopheles gambiae . These structures reveal an unexpected stoichiometry of one OR to three Orco subunits. Comparison of structures in odorant-bound and unbound states indicates that odorant binding to the sole OR subunit is sufficient to open the channel pore, suggesting a mechanism of OR activation and a conceptual framework for understanding evolution of insect odorant receptor sensitivity.

Topics & Concepts

Protein subunitInsectBiologyReceptorOdorAedes aegyptiAnopheles gambiaeBiophysicsIon channelOlfactionCell biologyChemistryBiochemistryBotanyEcologyNeuroscienceGeneImmunologyMalariaLarvaNeurobiology and Insect Physiology ResearchPlant and animal studiesInsect Pest Control Strategies
Structural basis of odor sensing by insect heteromeric odorant receptors | Litcius