Subunit Contributions to Insect Olfactory Receptor Function: Channel Block and Odorant Recognition
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TLDR
These findings favor specific subunit arrangements within the olfactory receptor complex and provide a preliminary odorophore for an olfaction receptor, offering a useful foundation for future exploration of insect olfatory receptor structure.Abstract:
Insect olfactory receptors are heteromeric ligand-gated ion channels composed of at least one common subunit (Orco) and at least one subunit that confers odorant specificity. Little is known about how individual subunits contribute to the structure and function of the olfactory receptor complex. We expressed insect olfactory receptors in Xenopus oocytes to investigate 2 functional features, ion channel block and odorant recognition. The sensitivity of Drosophila olfactory receptors to inhibition by ruthenium red, a cation channel blocker, varied widely when different specificity subunits were present, suggesting that the specificity subunits contribute to the structure of the ion pore. Olfactory receptors formed by Dmel\Or35a and Orco subunits from several different species displayed highly similar odorant response profiles, suggesting that the Orco subunit does not contribute to the structure of the odorant-binding site. We further explored odorant recognition by conducting a detailed examination of the odorant specificity Dmel\Or67a + Dmel\Orco, a receptor that responds to aromatic structures. This screen identified agonists, partial agonists, and an antagonist of Dmel\Or67a + Dmel\Orco. Our findings favor specific subunit arrangements within the olfactory receptor complex and provide a preliminary odorophore for an olfactory receptor, offering a useful foundation for future exploration of insect olfactory receptor structure.read more
Citations
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Sensory receptors—design principles revisited
TL;DR: This research topic was aimed toward collecting the present knowledge of structure and function of sensory receptors in animal kingdom as well as the mechanisms of signal transduction and amplification.
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Access to the odor world: olfactory receptors and their role for signal transduction in insects.
TL;DR: Current knowledge on the peripheral mechanisms of odor sensing in insects focusing on olfactory receptors and their specific role in the recognition and transduction of odorant and pheromone signals by OSNs is summarized.
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Amino acid residues contributing to function of the heteromeric insect olfactory receptor complex.
Tatsuro Nakagawa,Maurizio Pellegrino,Koji Sato,Leslie B. Vosshall,Leslie B. Vosshall,Kazushige Touhara +5 more
TL;DR: Evidence is provided that a subset of conserved Glu, Asp and Tyr residues in both subunits are essential for channel activity of the heteromeric insect Or-Orco complex, which is proposed to function as a novel type of ligand-gated nonselective cation channel possibly modulated by G-proteins.
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Amino acid coevolution reveals three-dimensional structure and functional domains of insect odorant receptors
Thomas A. Hopf,Satoshi Morinaga,Sayoko Ihara,Kazushige Touhara,Debora S. Marks,Richard Benton +5 more
TL;DR: This work uses amino acid evolutionary covariation across these ORs to define restraints on structural proximity of residue pairs, which permit de novo generation of three-dimensional models and predict odour binding and ion conduction domains, and provide a template for rationale structure-activity dissection.
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The role of the coreceptor Orco in insect olfactory transduction.
Monika Stengl,Nico W. Funk +1 more
TL;DR: In situ studies in hawkmoths falsify the hypothesis that Orco underlies odorant-induced ionotropic signal transduction in all insect species, and suggest Orco forms a metabotropically gated, slow cation channel which controls odorant response threshold and kinetics of the sensory neuron.
References
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Or83b encodes a broadly expressed odorant receptor essential for Drosophila olfaction.
Mattias C. Larsson,Ana Domingos,Walton D. Jones,M. Eugenia Chiappe,Hubert Amrein,Leslie B. Vosshall +5 more
TL;DR: The results support the second model of Or83b function, which encodes an atypical odorant receptor that plays an essential general role in olfaction and disrupts behavioral and electrophysiological responses to many odorants.
Journal ArticleDOI
Coding of Odors by a Receptor Repertoire
Elissa A. Hallem,John R. Carlson +1 more
TL;DR: A multidimensional "odor space" is constructed based on the responses of each individual receptor and it is found that the positions of odors depend on their chemical class, concentration, and molecular complexity.
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A spatial map of olfactory receptor expression in the Drosophila antenna.
TL;DR: A novel family of seven transmembrane domain proteins, encoded by 100 to 200 genes, that is likely to represent the family of Drosophila odorant receptors are identified and may ultimately afford a system to understand the mechanistic link between odor recognition and behavior.
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Subunit stoichiometry of a mammalian K+ channel determined by construction of multimeric cDNAs
TL;DR: The subunit stoichiometry of the mammalian K+ channel KV1.1 (RCK1) was examined by linking together the coding sequences of 2-5 K+Channel subunits in a single open reading frame and tagging the expression of individual subunits with a mutation that altered the sensitivity of the channel to block by external tetraethylammonium ion.
Journal ArticleDOI
Variant ionotropic glutamate receptors as chemosensory receptors in Drosophila.
TL;DR: Conservation of IR/iGluR-related proteins in bacteria, plants, and animals suggests that this receptor family represents an evolutionarily ancient mechanism for sensing both internal and external chemical cues.