Structural and biochemical evaluation of <i>Ceratitis</i><i>capitata</i> odorant‐binding protein 22 affinity for odorants involved in intersex communication

Falchetto, Marco; Ciossani, Giuseppe; Scolari, Francesca; Cosimo, Alessandro Di; Nenci, S.; Field, L. M.; Mattevi, A.; Zhou, Jing; Gasperi, Giuliano; Forneris, Federico

doi:10.1111/imb.12559

Cited by 20 publications

(21 citation statements)

References 71 publications

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“…There are three structures of single domain OBPs that have an additional seventh C-terminal helix; An gambiae OBP7 (PDB 3R1O) 68 , Locusta migratoria OBP1 (LmigOBP1, PDB 4PT1) 69 and the Mediterranean fruit fly, Ceratitis capitate OBP22 (PDB 6NHE) 70 . Of these, AeOBP22 is most similar to LmigOBP1 (Dali Z = 12.1) ( Fig.…”

Section: Changes In Ph Do Not Impact the Binding Of Fatty Acidsmentioning

confidence: 99%

Aedes aegypti Odorant Binding Protein 22 selectively binds fatty acids through a conformational change in its C-terminal tail

Wang

Murphy

Nix

et al. 2020

Sci Rep

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Aedes aegypti is the primary vector for transmission of Dengue, Zika and chikungunya viruses. Previously it was shown that Dengue virus infection of the mosquito led to an in increased expression of the odorant binding protein 22 (AeOBP22) within the mosquito salivary gland and that siRNA mediated knockdown of AeOBP22 led to reduced mosquito feeding behaviors. Insect OBPs are implicated in the perception, storage and transport of chemosensory signaling molecules including airborne odorants and pheromones. AeOBP22 is unusual as it is additionally expressed in multiple tissues, including the antenna, the male reproductive glands and is transferred to females during reproduction, indicating multiple roles in the mosquito life cycle. However, it is unclear what role it plays in these tissues and what ligands it interacts with. Here we present solution and X-ray crystallographic studies that indicate a potential role of AeOBP22 binding to fatty acids, and that the specificity for longer chain fatty acids is regulated by a conformational change in the C-terminal tail that leads to creation of an enlarged binding cavity that enhances binding affinity. This study sheds light onto the native ligands for AeOBP22 and provides insight into its potential functions in different tissues. A critical step in disease transmission by hematophagous mosquitoes is the location of a human host for a blood meal by the female mosquito. Host location and selection of biting sites is driven by the perception of chemosensory stimuli that requires the interplay of a number of factors including chemosensory receptors and odorant binding proteins (OBPs) 1,2. Ae. aegypti OBP22 (AeOBP22) is a member of the OBP family of proteins that has been directly implicated in regulating these feeding behaviors 3. AeOBP22 is unusual in that it is expressed in multiple chemosensory tissues, including in the antenna, the proboscis of the females, the thoracic spiracles 4 , in the male reproductive glands where it is transferred to the females during mating 4,5 , and in the salivary glands 3,6,7. Surprisingly, it was discovered that, in combination with other chemosensory genes, its expression in the salivary glands is up regulated in response to Dengue virus (DENV) infection and that knockdown of AeOBP22 using dsRNA approaches led to reduced blood feeding behaviors 3 OBPs were first identified through their role as pheromone binding proteins (PBPs), which are components of the chemosensory apparatus that are secreted into the lymph fluid surrounding the neuronal dendrites of the chemosensory sensilla 8. PBPs are a subgroup of OBPs that bind preferentially to pheromones. OBPs are essential for many aspects of chemosensory signal transduction 9,10. In the lymph it is proposed that OBPs function to transport hydrophobic ligands across the aqueous lymph fluid and deliver them to chemosensory receptors 1,2,11,12. Many studies have provided support for this hypothesis, particularly for perception of pheromonal compounds 10,13-17. However, other studies have suggest...

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Section: Changes In Ph Do Not Impact the Binding Of Fatty Acidsmentioning

confidence: 99%

Aedes aegypti Odorant Binding Protein 22 selectively binds fatty acids through a conformational change in its C-terminal tail

Wang

Murphy

Nix

et al. 2020

Sci Rep

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“…The C-terminus has been shown to be an important component in binding and releasing OBPs to odorants (Sun et al, 2016). In AmelOBP14 and Ceratitis capitata CcapOBP22, which belong to a class of OBPs that possesses eight cysteines (Plus-C OBPs), the C-terminus segment forms an external seventh helix at the interface between the protein exterior and the internal cavity (Spinelli et al, 2012;Falchetto et al, 2019). However, D. helophoroides DhelOBP21, with a short C-terminus, possesses five helices, unlike other insect OBPs .…”

Section: Structural Features Of Maltobp1mentioning

confidence: 99%

“…Elevated expression in nonolfactory regions, i.e., leg and wing, suggests that MaltOBP1 participates in other physiological activities in addition to perception and recognition of semiochemicals in M. alternatus. A number of OBPs were found to be expressed in nonolfactory tissues, including head (R. ferrugineus RferOBP7, Yan et al, 2016), thorax (R. ferrugineus RferOBP11, Yan et al, 2016), abdomen (Agrilus mali AmalOBP8, Cui et al, 2018), and palps (C. capitata, CcapOBP22, Falchetto et al, 2019), indicating that these OBPs play other physiological roles. For instance, orthologous OBP10 from two sibling Helicoverpa species was expressed in both chemosensory and reproductive organs, and a function as an oviposition deterrent in Helicoverpa species was suggested, potentially to avoid cannibalism of conspecific larvae (Sun et al, 2012).…”

Section: Tissue-specificity Of Maltobp1mentioning

confidence: 99%

“…Studies involving OBP identification (Li L. et al, 2017;Zhao et al, 2018), protein structural analysis (Northey et al, 2016;Falchetto et al, 2019), immunocytochemistry in specific olfactory sensilla Zhang et al, 2018), ligand binding properties (Sun et al, 2017(Sun et al, , 2018, and in vivo RNA interference (Yin et al, 2018;He et al, 2019) have demonstrated that insect OBPs play crucial roles in odorant discrimination, binding, and transportation. These proteins carry lipophilic odorants to the olfactory receptor cells in the sensillar lymph surrounding the sensory dendrite (Pelosi et al, 2014(Pelosi et al, , 2018.…”

Section: Introductionmentioning

confidence: 99%

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Characterization of MaltOBP1, a Minus-C Odorant-Binding Protein, From the Japanese Pine Sawyer Beetle, Monochamus alternatus Hope (Coleoptera: Cerambycidae)

et al. 2020

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Insect Odorant-Binding Proteins (OBPs) play crucial roles in the discrimination, binding and transportation of odorants. Herein, the full-length cDNA sequence of Minus-C OBP1 (MaltOBP1) from the Japanese pine sawyer beetle, Monochamus alternatus, was cloned by 3 and 5 RACE-PCR and analyzed. The results showed that MaltOBP1 contains a 435 bp open reading frame (ORF) that encodes 144 amino acids, including a 21amino acid signal peptide at the N-terminus. The matured MaltOBP1 protein possesses a predicted molecular weight of about 14 kDa and consists of six α-helices, creating an open binding pocket, and two disulfide bridges. Immunoblotting results showed that MaltOBP1 was most highly expressed in antennae in both sexes, followed by wings and legs. Fluorescence assays demonstrated that MaltOBP1 protein exhibited high binding affinity with (R)-(+)-α-pinene, (−)-β-pinene, trans-caryophyllene, (R)-(+)-limonene and (-)-verbenone, which are the main volatile compounds of the pine tree. Our combined results suggest that MaltOBP1 plays a role in host seeking behavior in M. alternatus.

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“…Odorant binding proteins (OBPs) and chemosensory proteins (CSPs) are typically located on antennae and mouthparts and are also major proteins involved in recognition of volatiles. OBPs and CSPs play an important role in transporting incoming odorants to corresponding receptors and in transferring the odorant-degrading enzymes (ODEs) to the receptors [13, 14]. Previous studies have shown that insects communicate with their environment through detection of odorant molecules [15].…”

Section: Introductionmentioning

confidence: 99%

Identification of olfactory genes and functional analysis of BminCSP and BminOBP21 in Bactrocera minax

Wang

Akami

et al. 2019

PLoS ONE

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Insects possess highly developed olfactory systems which play pivotal roles in its ecological adaptations, host plant location, and oviposition behavior. Bactrocera minax is an oligophagous tephritid insect whose host selection, and oviposition behavior largely depend on the perception of chemical cues. However, there have been very few reports on molecular components related to the olfactory system of B. minax. Therefore, the transcriptome of B. minax were sequenced in this study, with 1 candidate chemosensory protein (CSP), 21 candidate odorant binding proteins (OBPs), 53 candidate odorant receptors (ORs), 29 candidate ionotropic receptors (IRs) and 4 candidate sensory neuron membrane proteins (SNMPs) being identified. After that, we sequenced the candidate olfactory genes and performed phylogenetic analysis. qRT-PCR was used to express and characterize 9 genes in olfactory and non-olfactory tissues. Compared with GFP-injected fly (control), dsOBP21-treated B. minax and dsCSP-treated B. minax had lower electrophysiological response to D-limonene (attractant), suggesting the potential involvement of BminOBP21 and BminCSP genes in olfactory perceptions of the fly. Our study establishes the molecular basis of olfaction, tributary for further functional analyses of chemosensory processes in B. minax.

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Structural and biochemical evaluation of Ceratitiscapitata odorant‐binding protein 22 affinity for odorants involved in intersex communication

Cited by 20 publications

References 71 publications

Aedes aegypti Odorant Binding Protein 22 selectively binds fatty acids through a conformational change in its C-terminal tail

Aedes aegypti Odorant Binding Protein 22 selectively binds fatty acids through a conformational change in its C-terminal tail

Characterization of MaltOBP1, a Minus-C Odorant-Binding Protein, From the Japanese Pine Sawyer Beetle, Monochamus alternatus Hope (Coleoptera: Cerambycidae)

Identification of olfactory genes and functional analysis of BminCSP and BminOBP21 in Bactrocera minax

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