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Odorant receptor orthologues from moths display conserved responses to cis-jasmone

Hou, Xiao Qing ; Jia, Zhongqiang ; Zhang, Dan Dan LU and Wang, Guirong (2023) In Insect science
Abstract

In insects, the odorant receptor (OR) multigene family evolves by the birth-and-death evolutionary model, according to which the OR repertoire of each species has undergone specific gene gains and losses depending on their chemical environment, resulting in taxon-specific OR lineage radiations with different sizes in the phylogenetic trees. Despite the general divergence in the gene family across different insect orders, the ORs in moths seem to be genetically conserved across species, clustered into 23 major clades containing multiple orthologous groups with single-copy gene from each species. We hypothesized that ORs in these orthologous groups are tuned to ecologically important compounds and functionally conserved. cis-Jasmone is... (More)

In insects, the odorant receptor (OR) multigene family evolves by the birth-and-death evolutionary model, according to which the OR repertoire of each species has undergone specific gene gains and losses depending on their chemical environment, resulting in taxon-specific OR lineage radiations with different sizes in the phylogenetic trees. Despite the general divergence in the gene family across different insect orders, the ORs in moths seem to be genetically conserved across species, clustered into 23 major clades containing multiple orthologous groups with single-copy gene from each species. We hypothesized that ORs in these orthologous groups are tuned to ecologically important compounds and functionally conserved. cis-Jasmone is one of the compounds that not only primes the plant defense of neighboring receiver plants, but also functions as a behavior regulator to various insects. To test our hypothesis, using Xenopus oocyte recordings, we functionally assayed the orthologues of BmorOR56, which has been characterized as a specific receptor for cis-jasmone. Our results showed highly conserved response specificity of the BmorOR56 orthologues, with all receptors within this group exclusively responding to cis-jasmone. This is supported by the dN/dS analysis, showing that strong purifying selection is acting on this group. Moreover, molecular docking showed that the ligand binding pockets of BmorOR56 orthologues to cis-jasmone are similar. Taken together, our results suggest the high conservation of OR for ecologically important compounds across Heterocera.

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organization
publishing date
type
Contribution to journal
publication status
in press
subject
keywords
cis-jasmone, evolutionary conservation, functional characterization, molecular docking, moths, purifying selection
in
Insect science
publisher
Wiley-Blackwell
external identifiers
  • pmid:38009986
  • scopus:85177865245
ISSN
1672-9609
DOI
10.1111/1744-7917.13296
language
English
LU publication?
yes
id
e557d748-4f9e-46a7-ab8b-308582cf1e13
date added to LUP
2024-01-08 14:00:37
date last changed
2024-04-23 09:37:03
@article{e557d748-4f9e-46a7-ab8b-308582cf1e13,
  abstract     = {{<p>In insects, the odorant receptor (OR) multigene family evolves by the birth-and-death evolutionary model, according to which the OR repertoire of each species has undergone specific gene gains and losses depending on their chemical environment, resulting in taxon-specific OR lineage radiations with different sizes in the phylogenetic trees. Despite the general divergence in the gene family across different insect orders, the ORs in moths seem to be genetically conserved across species, clustered into 23 major clades containing multiple orthologous groups with single-copy gene from each species. We hypothesized that ORs in these orthologous groups are tuned to ecologically important compounds and functionally conserved. cis-Jasmone is one of the compounds that not only primes the plant defense of neighboring receiver plants, but also functions as a behavior regulator to various insects. To test our hypothesis, using Xenopus oocyte recordings, we functionally assayed the orthologues of BmorOR56, which has been characterized as a specific receptor for cis-jasmone. Our results showed highly conserved response specificity of the BmorOR56 orthologues, with all receptors within this group exclusively responding to cis-jasmone. This is supported by the dN/dS analysis, showing that strong purifying selection is acting on this group. Moreover, molecular docking showed that the ligand binding pockets of BmorOR56 orthologues to cis-jasmone are similar. Taken together, our results suggest the high conservation of OR for ecologically important compounds across Heterocera.</p>}},
  author       = {{Hou, Xiao Qing and Jia, Zhongqiang and Zhang, Dan Dan and Wang, Guirong}},
  issn         = {{1672-9609}},
  keywords     = {{cis-jasmone; evolutionary conservation; functional characterization; molecular docking; moths; purifying selection}},
  language     = {{eng}},
  publisher    = {{Wiley-Blackwell}},
  series       = {{Insect science}},
  title        = {{Odorant receptor orthologues from moths display conserved responses to cis-jasmone}},
  url          = {{http://dx.doi.org/10.1111/1744-7917.13296}},
  doi          = {{10.1111/1744-7917.13296}},
  year         = {{2023}},
}