Sites of evolutionary divergence differ between olfactory and gustatory receptors of Drosophila.

A Gardiner; R K Butlin; W C Jordan; Michael Gordon Ritchie

doi:10.1098/rsbl.2008.0723

Sites of evolutionary divergence differ between olfactory and gustatory receptors of Drosophila.

A Gardiner, R K Butlin, W C Jordan, Michael Gordon Ritchie

Research output: Contribution to journal › Article › peer-review

Abstract

Drosophila olfactory (ORs) and gustatory (GRs) receptors are evolutionarily unrelated to vertebrate ORs or nematode chemosensory receptors. Insect ORs display a reverse membrane topology compared with conventional G-protein-coupled receptors, suggesting that the mammalian scheme of chemosensory signal transduction cannot directly apply to insects. Experimental studies of GR membrane topology are lacking. We analysed the distribution of amino acid sites in GRs and ORs that show evidence for divergence under either positive selection or relaxed purifying constraints, in the genomes of 12 Drosophila species and found significant differences between these two receptor types. This suggests that insect ORs and GRs have distinct molecular properties and mechanisms of ligand recognition and/or signal transduction.

Original language	English
Pages (from-to)	244-247
Number of pages	4
Journal	Biology Letters
Volume	5
DOIs	https://doi.org/10.1098/rsbl.2008.0723
Publication status	Published - 23 Apr 2009

Keywords

gustatory receptors
olfactory receptors
Drosophila
divergent selection
AMINO-ACID SITES
ODORANT RECEPTORS
MOLECULAR EVOLUTION
POSITIVE SELECTION
MEMBRANE TOPOLOGY
PROTEINS
GENOMES
FAMILY
GENES
MODEL

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10.1098/rsbl.2008.0723

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title = "Sites of evolutionary divergence differ between olfactory and gustatory receptors of Drosophila.",

abstract = "Drosophila olfactory (ORs) and gustatory (GRs) receptors are evolutionarily unrelated to vertebrate ORs or nematode chemosensory receptors. Insect ORs display a reverse membrane topology compared with conventional G-protein-coupled receptors, suggesting that the mammalian scheme of chemosensory signal transduction cannot directly apply to insects. Experimental studies of GR membrane topology are lacking. We analysed the distribution of amino acid sites in GRs and ORs that show evidence for divergence under either positive selection or relaxed purifying constraints, in the genomes of 12 Drosophila species and found significant differences between these two receptor types. This suggests that insect ORs and GRs have distinct molecular properties and mechanisms of ligand recognition and/or signal transduction.",

keywords = "gustatory receptors, olfactory receptors, Drosophila, divergent selection, AMINO-ACID SITES, ODORANT RECEPTORS, MOLECULAR EVOLUTION, POSITIVE SELECTION, MEMBRANE TOPOLOGY, PROTEINS, GENOMES, FAMILY, GENES, MODEL",

author = "A Gardiner and Butlin, {R K} and Jordan, {W C} and Ritchie, {Michael Gordon}",

year = "2009",

month = apr,

day = "23",

doi = "10.1098/rsbl.2008.0723",

language = "English",

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journal = "Biology Letters",

issn = "1744-9561",

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T1 - Sites of evolutionary divergence differ between olfactory and gustatory receptors of Drosophila.

AU - Gardiner, A

AU - Butlin, R K

AU - Jordan, W C

AU - Ritchie, Michael Gordon

PY - 2009/4/23

Y1 - 2009/4/23

N2 - Drosophila olfactory (ORs) and gustatory (GRs) receptors are evolutionarily unrelated to vertebrate ORs or nematode chemosensory receptors. Insect ORs display a reverse membrane topology compared with conventional G-protein-coupled receptors, suggesting that the mammalian scheme of chemosensory signal transduction cannot directly apply to insects. Experimental studies of GR membrane topology are lacking. We analysed the distribution of amino acid sites in GRs and ORs that show evidence for divergence under either positive selection or relaxed purifying constraints, in the genomes of 12 Drosophila species and found significant differences between these two receptor types. This suggests that insect ORs and GRs have distinct molecular properties and mechanisms of ligand recognition and/or signal transduction.

AB - Drosophila olfactory (ORs) and gustatory (GRs) receptors are evolutionarily unrelated to vertebrate ORs or nematode chemosensory receptors. Insect ORs display a reverse membrane topology compared with conventional G-protein-coupled receptors, suggesting that the mammalian scheme of chemosensory signal transduction cannot directly apply to insects. Experimental studies of GR membrane topology are lacking. We analysed the distribution of amino acid sites in GRs and ORs that show evidence for divergence under either positive selection or relaxed purifying constraints, in the genomes of 12 Drosophila species and found significant differences between these two receptor types. This suggests that insect ORs and GRs have distinct molecular properties and mechanisms of ligand recognition and/or signal transduction.

KW - gustatory receptors

KW - olfactory receptors

KW - Drosophila

KW - divergent selection

KW - AMINO-ACID SITES

KW - ODORANT RECEPTORS

KW - MOLECULAR EVOLUTION

KW - POSITIVE SELECTION

KW - MEMBRANE TOPOLOGY

KW - PROTEINS

KW - GENOMES

KW - FAMILY

KW - GENES

KW - MODEL

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U2 - 10.1098/rsbl.2008.0723

DO - 10.1098/rsbl.2008.0723

M3 - Article

SN - 1744-9561

VL - 5

SP - 244

EP - 247

JO - Biology Letters

JF - Biology Letters

ER -

Sites of evolutionary divergence differ between olfactory and gustatory receptors of Drosophila.

Abstract

Keywords

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NERC NE/C003187/1: A postgenomic approach to the role of odour and gustatory receptors in speciation

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Sites of evolutionary divergence differ between olfactory and gustatory receptors of Drosophila.

Abstract

Keywords

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NERC NE/C003187/1: A postgenomic approach to the role of odour and gustatory receptors in speciation

Cite this