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« Previous AbstractFunctional Characterization of a Candidate Sex Pheromone Receptor AlinOR33 Involved in the Chemoreception of Adelphocoris lineolatus    Next AbstractCharacterization of key aroma compounds and regulation mechanism of aroma formation in local Binzi (Malus pumila x Malus asiatica) fruit »

Insect Sci


Title:The Adelphocoris lineolatus OBP4: Support for evolutionary and functional divergence of a mirid pheromone-binding protein from that found in lepidopteran moths
Author(s):Wang Q; Li Y; Wang Q; Sun L; Zhang Y;
Address:"Key Laboratory of Biology, Genetics and Breeding of Special Economic Animals and Plants, Ministry of Agriculture and Rural Affairs, Tea Research Institute, Chinese Academy of Agricultural Sciences, Hangzhou, 310008, China. College of Agriculture and Food Science, Zhejiang A & F University, Hangzhou, 311300, China. State Key Laboratory for Biology of Plant Diseases and Insect Pests, Institute of Plant Protection, Chinese Academy of Agricultural Sciences, Beijing, 100193, China"
Journal Title:Insect Sci
Year:2022
Volume:20210422
Issue:1
Page Number:151 - 161
DOI: 10.1111/1744-7917.12919
ISSN/ISBN:1744-7917 (Electronic) 1672-9609 (Linking)
Abstract:"Pheromone-binding proteins (PBPs) have been extensively investigated in lepidopteran moths, but their evolution and function in hemipteran species remain unclear. Our previous study demonstrated that an odorant-binding protein, OBP4, of the mirid bug Adelphocoris lineolatus functions as a candidate hemipteran PBP but clustered with lepidopteran antennae-binding proteins (ABPs) rather than in the PBP/general odorant-binding protein (GOBP) clade. In this study, we hypothesized that origin and function of PBPs in hemipteran bugs may differ from those of lepidopteran moths. To test this hypothesis, we first constructed a phylogenetic tree using insect OBPs from sister hemipteran and holometabolous lineages, and the results indicated that neither OBP4 nor other types of candidate PBPs of mirid bugs clustered with the lepidopteran PBP/GOBP clade. Then, a fluorescence competitive binding assay was employed to determine binding affinities of recombinant OBP4 protein to host plant volatiles, with functional groups different from A. lineolatus sex pheromone components. The results revealed that OBP4 highly bound the female adult attractant 3-hexanone and 15 other mirid bug biologically active plant volatiles. Finally, we examined cellular expression profiles of OBP4 in putative antennal sensilla that are related to female A. lineolatus host plant location. The fluorescence in situ hybridization and immunocytochemical labeling assay showed that the OBP4 gene was highly expressed in the multiporous olfactory sensilla medium-long sensilla basiconica rather than in the short sensilla basiconica or uniporous sensilla chaetica. These results, together with those of our previous studies, indicate that OBP4 not only functions in recognition of bug-produced sex pheromones in males, but is probably involved in detection of host plant volatiles in both A. lineolatus sexes. Our findings support the hypothesis that the origin and function of PBPs in hemipteran bugs differ from those of well-known PBPs in lepidopteran moths, which provides a novel perspective on evolutionary mechanisms of sex pheromone communication across insect orders"
Keywords:"Animals *Carrier Proteins/genetics Female In Situ Hybridization, Fluorescence *Insect Proteins/genetics/metabolism Male *Moths/genetics/metabolism Pheromones Phylogeny *Receptors, Odorant/genetics/metabolism binding characteristics cellular expression evo;"
Notes:"MedlineWang, Qian Li, Yujie Wang, Qi Sun, Liang Zhang, Yongjun eng Australia 2021/04/24 Insect Sci. 2022 Feb; 29(1):151-161. doi: 10.1111/1744-7917.12919. Epub 2021 Apr 22"

 
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