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Structural model for ligand binding and channel opening of an insect gustatory receptor

Satoshi Morinaga, Koji Nagata, Sayoko Ihara, Tomohiro Yumita, Yoshihito Niimura, Koji Sato, Kazushige Touhara

2022Journal of Biological Chemistry26 citationsDOIOpen Access PDF

Abstract

Insect gustatory receptors play roles in sensing tastants, such as sugars and bitter substances. We previously demonstrated that the BmGr9 silkworm gustatory receptor is a d-fructose-gated ion channel receptor. However, the molecular mechanism of how d-fructose could initiate channel opening were unclear. Herein, we present a structural model for a channel pore and a d-fructose-binding site in BmGr9. Since the membrane topology and oligomeric state of BmGr9 appeared to be similar to those of an insect odorant receptor coreceptor, Orco, we constructed a structural model of BmGr9 based on the cryo-EM Orco structure. Our site-directed mutagenesis data suggested that the transmembrane region 7 forms channel pore and controls channel gating. This model also suggested that a pocket formed by transmembrane helices 2 to 4 and 6 binds d-fructose. Using mutagenesis experiments in combination with docking simulations, we were able to determine the potent binding mode of d-fructose. Finally, based on these data, we propose a conformational change that leads to channel opening upon d-fructose binding. Taken together, these findings detail the molecular mechanism by which an insect gustatory receptor can be activated by its ligand molecule.

Topics & Concepts

Ion channelGatingLigand-gated ion channelTransmembrane domainBiophysicsChemistryReceptorTransmembrane proteinFructoseMutagenesisLigand (biochemistry)Homology modelingDocking (animal)BiochemistryBinding siteMolecular modelStereochemistryBiologyMutationEnzymeGeneNursingMedicineNeurobiology and Insect Physiology ResearchInsect and Pesticide ResearchInsect Utilization and Effects
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