β‐Ionone as putative semiochemical suggested by ligand binding on an odorant‐binding protein of <i>Hylamorpha elegans</i> and electroantennographic recordings

Venthur, Herbert; Zhou, Jing‐Jiang; Mutis, Ana; Ceballos, Ricardo; Mella-Herrera, Rodrigo A.; Larama, Giovanni; Ávila, Andrés I.; Iturriaga-Vásquez, Patricio; Faundez-Parraguez, Manuel; Alvear, Marysol; Quiróz, Andrés

doi:10.1111/ens.12180

Cited by 19 publications

(14 citation statements)

References 50 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…These genes have been characterized in whole genome level only the flour beetle T. castaneum [37]. Several species have been identified partly by RNA-seq, such as two bark beetles (I. typographus and D. ponderosae) [20], two leaf beetles (P. aenescens and P. maculicollis) [27], scarab beetle Hylamorpha elegans [50], and a leaf beetle C. lapponica [49]. In the present study, we identified the chemosensory gene families at whole genome level in a pair of blister beetles (Meloidae: Hycleus) in the Meloidae and provided the evolution analysis of chemosensory genes within Coleoptera groups.…”

Section: Discussionmentioning

confidence: 99%

Whole-genome identification of chemosensory genes in two sister blister beetles provides insights into chemosensory evolution

Wu¹,

Liu²,

Chen³

2019

Preprint

View full text Add to dashboard Cite

Background: Commonly known as blister beetles or Spanish fly, there are more than 1,500 species in the Meloidae family (Coleoptera:Tenebrionoidea) that produce the potent defensive blistering agent cantharidin, which has recently been exploited for cancer therapy. Hycleus cichorii and Hycleus phaleratus are exploited as traditional Chinese medicine over 2,000 years due to their ability to biosynthesize cantharidin. These blister beetles share highly similar environments and ecological niches. To understand the role of the chemosensory system in speciation and evolution in the beetles, we identified the chemosensory gene families in whole genome of both blister beetle comprehensively. Results: We identified 29 OBPs, 10 CSPs, 116 ORs, 80 GRs, and 35 IRs in H. phaleratus and 30 OBPs, 10 CSPs, 191 ORs, 92 GRs and 42 IRs in H. cichorii. The 7 groups of beetles’ ORs were recovered, but a new pattern of ORs in Coleoptera were surfaced, due to lack of whole OR repertoire for comparison to T. castaneum before. The OR number is varied, identified in H. cichorii 64% more than that in H. phaleratus (191 VS 116), which maybe an evolution event between these blister beetle’s speciation. A major Hycleus-specific expansion clade of bitter GRs is evident based on our phylogenetic tree, in which, clustered more than 50% Hycleus-bitter GRs. All the ten clade of beetles’ antennal IR identified in both Hycleus beetles. Interestingly, IR75 and IR41a were obviously expensed compare to other insects. Conclusions: The GR and IR expansion events may promote Hycleus genus evolution. Our data will provide a basis for future species protection and speciation focusing on the blister beetle.

show abstract

Section: Discussionmentioning

confidence: 99%

Whole-genome identification of chemosensory genes in two sister blister beetles provides insights into chemosensory evolution

Wu¹,

Liu²,

Chen³

2019

Preprint

View full text Add to dashboard Cite

show abstract

“…High binding affinity for beta-ionone was also demonstrated in OBPs of many other insect species, such as H . armigera , Sogatella furcifera , and Microplitis mediator [34–36]. PameOBP2 also had high binding affinities for tetradecane and geranylacetone, two cashew apple juice volatiles [37], with Ki values of 0.96 and 6.97 μM, respectively.…”

Section: Discussionmentioning

confidence: 99%

Molecular and Functional Characterization of Three Odorant-Binding Protein from Periplaneta americana

Zhang

et al. 2017

PLoS ONE

View full text Add to dashboard Cite

The American cockroach, Periplaneta americana, is a vector of many pathogenic organisms associated with human diseases. Olfaction plays a crucial role in guiding cockroach behaviors and contributes to their ability to transmit pathogens. Odorant binding proteins (OBPs), abundant in the insect olfactory sensilla, are important for insect olfaction. In this study, three OBP genes, PameOBP1, 2 and 3, were cloned from P. americana. Sequence alignment and phylogenetic analysis revealed that PameOBP1, 2 and 3 belong to the Minus-C OBP, Classic OBP, and Plus-C OBP subfamilies, respectively. Expression pattern and ligand-binding analysis showed that PameOBP1 and 2 were specifically expressed in antennae, and exhibited high binding affinities (Ki < 2 μM) to farnesene, farnesol, 2-tridecanone, and tetradecane, suggesting roles in volatile perception. Conversely, PameOBP3 was ubiquitously expressed in most of the tissues examined at high levels and displayed very weak binding affinities (Ki > 40 μM) for all 87 ligands tested. Our study provides insights into the functional diversity of PameOBP genes and provides some volatiles that can potentially be used in behavioral interference of P. americana.

show abstract

“…This result further supports the view that OBPs are not just simple, general solubilizers that act as transporters for odorants but also play a vital role in the perception of different kinds of chemicals in the environment (Pelosi et al, 2006;Swarup et al, 2011). An OBP in Hylamorpha elegans showed a high binding affinity to β-ionone (Venthur et al, 2016), a volatile compound derived from plant carotenoids (Simkin et al, 2004). …”

Section: Discussionmentioning

confidence: 99%

Protein Baits, Volatile Compounds and Irradiation Influence the Expression Profiles of Odorantbinding Protein Genes in Bactrocera Dorsalis (Diptera: Tephritidae)

Idrees¹

2017

Appl. Ecol. Env. Res.

View full text Add to dashboard Cite

Idrees et al.: Protein baits, volatile compounds and irradiation influence the expression profiles of odorant-binding protein genes inBactrocera dorsalis Fuzhou, Fujian, 350002, *Corresponding author e-mail: jiqinge@yeah.net; phone: +86-0-59-183-789-420; fax:+86-0-59-183-789-421 (Received 4 th Jul 2017; accepted 18 th Oct 2017)Abstract. Chemical communication in insects is based on odorant-binding proteins (OBPs), but the molecular mechanisms by which these OBPs allow the perception of volatiles and host chemicals remain unclear. Bactrocera dorsalis (Hendel) is one of the most economically important pests of fruits and vegetables. In this study, the OBPs of B. dorsalis (BdorOBPs) were evaluated in response to different attractive protein baits, brewer's yeast volatile compounds and irradiation. The expression of 10 genes encoding OBPs in the antennae of B. dorsalis during three adult physiological life stages (pre-mating, post-mating and post-oviposition) were analysed. All selected BdorOBP genes were found to contain one conserved pheromone-binding protein/general-odorant-binding protein domain (PBP-GOBP), except OBP8, which contained two of these conserved domains. An unrooted phylogenetic tree was constructed to show the relationships among these 10 BdorOBPs and the OBPs belonging to the same OBP family in other insects. We found significantly different transcript expression profiles in each OBP gene at each stage in response to different treatments; these results revealed that OBP2 expression was significantly increased in response to baits at each adult physiological stage, while OBP2, OBP5 and OBP1 were highly expressed in response to combined-volatiles treatment at all tested physiological stages. OBP3, OBP5 and OBP10 showed high expression in response to irradiation at all tested physiological stages. Thus, we infer that protein baits, brewer's yeast volatiles and irradiation significantly influence the transcript levels of OBP genes, which may act in olfactory perception.

show abstract

β‐Ionone as putative semiochemical suggested by ligand binding on an odorant‐binding protein of Hylamorpha elegans and electroantennographic recordings

Cited by 19 publications

References 50 publications

Whole-genome identification of chemosensory genes in two sister blister beetles provides insights into chemosensory evolution

Whole-genome identification of chemosensory genes in two sister blister beetles provides insights into chemosensory evolution

Molecular and Functional Characterization of Three Odorant-Binding Protein from Periplaneta americana

Protein Baits, Volatile Compounds and Irradiation Influence the Expression Profiles of Odorantbinding Protein Genes in Bactrocera Dorsalis (Diptera: Tephritidae)

Contact Info

Product

Resources

About