scholarly journals Antennal transcriptome analysis and expression profiles of odorant binding proteins in Eogystia hippophaecolus (Lepidoptera: Cossidae)

BMC Genomics ◽  
2016 ◽  
Vol 17 (1) ◽  
Author(s):  
Ping Hu ◽  
Jing Tao ◽  
Mingming Cui ◽  
Chenglong Gao ◽  
Pengfei Lu ◽  
...  
Keyword(s):  
Transcriptome Analysis ◽  
Binding Proteins ◽  
Expression Profiles ◽  
Odorant Binding Proteins ◽  
Odorant Binding

scholarly journals Antennal transcriptome analysis of olfactory genes and characterizations of odorant binding proteins in two woodwasps, Sirex noctilio and Sirex nitobei (Hymenoptera: Siricidae)

BMC Genomics ◽  
2021 ◽  
Vol 22 (1) ◽  
Author(s):  
Bing Guo ◽  
Enhua Hao ◽  
Haili Qiao ◽  
Jingzhen Wang ◽  
Weiwei Wu ◽  
...  
Keyword(s):  
Transcriptome Analysis ◽  
Native Species ◽  
Binding Proteins ◽  
Molecular Mechanisms ◽  
Expression Profiles ◽  
Species Differentiation ◽  
Sirex Noctilio ◽  
Odorant Binding Proteins ◽  
Species Specific ◽  
Odorant Binding

Abstract Background The woodwasp Sirex noctilio Fabricius is a major quarantine pest worldwide that was first discovered in China in 2013 and mainly harms Pinus sylvestris var. mongolica Litv.. S. nitobei Matsumura is a native species in China and is closely related to S. noctilio. Recently, the two woodwasps species were found attacking the P. sylvestris var. mongolica Litv in succession. The olfactory system is the foundation of insect behavior. Olfactory genes were identified through antennal transcriptome analysis. The expression profiles odorant binding proteins (OBPs) were analyzed with RT-qPCR. Results From our transcriptome analysis, 16 OBPs, 7 chemosensory proteins (CSPs), 41 odorant receptors (ORs), 8 gustatory receptors (GRs), 13 ionotropic receptors (IRs), and one sensory neuron membrane protein (SNMP) were identified in S. noctilio, while 15 OBPs, 6 CSPs, 43 ORs, 10 GRs, 16 IRs, and 1 SNMP were identified in S. nitobei. Most of the olfactory genes identified in two species were homologous. However, some species-specific olfactory genes were identified from the antennal transcriptomes, including SnocOBP13, SnocCSP6, SnocOR26, SnocGR2, SnocIR7 in S. noctilio and SnitGR9, SnitGR11, SnitIR17 in S. nitobei. In total, 14 OBPs were expressed primarily in the antennae. SnocOBP9 and SnitOBP9, identified as PBP homologues, were sex-biased expression in two siricid, but with different pattern. SnocOBP11 and SnitOBP11 were highly expressed in antennae and clearly expressed in external genitalia. SnocOBP7 and SnitOBP7 were highly expressed in male genitalia. SnocOBP3 and SnocOBP10 were highly expressed in female genitalia and male heads, while SnitOBP3 and SnitOBP10 did not show obvious tissue bias. Conclusion We analyzed 86 and 91 olfactory genes from S. noctilio and S. nitobei, respectively. Most of the olfactory genes identified were homologous, but also some species-specific olfactory genes were identified, which indicated the similarities and differences of the molecular mechanisms between the two closely-related species. Different expression in the antennae, external genitals or heads, exhibiting an obvious sex bias, suggested their different role in recognizing sex pheromones or plant volatiles. Species-specific expression for several OBPs genes may suggest that they strengthened or lost their original function during species differentiation, resulting in olfactory differences between the two species.

scholarly journals Antennal transcriptome analysis and expression profiles of odorant binding proteins in two woodwasps, Sirex noctilio and S. nitobei (Hymenoptera: Siricidae)

2019 ◽  
Author(s):  
Bing Guo ◽  
Jing-Zhen Wang ◽  
Hai-Li Qiao ◽  
Wei-Wei Wu ◽  
Jing-Jiang Zhou ◽  
...  
Keyword(s):  
Transcriptome Analysis ◽  
Olfactory System ◽  
Native Species ◽  
Binding Proteins ◽  
Expression Profiles ◽  
External Genitalia ◽  
Sirex Noctilio ◽  
Odorant Binding Proteins ◽  
Odor Recognition ◽  
Odorant Binding

Abstract Background The olfactory system is the foundation of insect behavior. Odorant binding proteins (OBPs) are key components of the insect olfactory system. The woodwasp Sirex noctilio Fabricius is a major quarantine pest worldwide that was first discovered in China in 2013 and mainly harms members of the Pinus genus. S. nitobei Matsumura is a native species in China and is closely related to S. noctilio. To gain insights into the olfactory mechanisms of these two woodwasp species, olfactory genes were identified using antennal transcriptome analysis. We also analyzed the expression profiles of OBPs with RT-qPCR. Results From our transcriptome analysis, 16 OBPs, 7 chemosensory proteins (CSPs), 41 odorant receptors (ORs), 8 gustatory receptors (GRs), 13 ionotropic receptors (IRs), and one sensory neuron membrane protein (SNMP) were identified in S. noctilio, while 15 OBPs, 6 CSPs, 43 ORs, 10 GRs, 16 IRs, and 1 SNMP were identified in S. nitobei. Most of the olfactory genes identified in two species were homologous. However, some species-specific olfactory genes were identified in the antennal transcriptomes, including SnocOBP13, SnocCSP6, SnocOR26, SnitGR9, and SnitIR17. In total, 14 OBPs (7 in S. noctilio and 7 in S. nitobei) were expressed primarily in the antennae of the two woodwasps. SnocOBP11 and SnitOBP11 were highly expressed in antennae and were also clearly expressed in the external genitalia. SnocOBP3 is highly expressed in the genitalia of females, and SnocOBP7 and SnitOBP7 are highly expressed in the genitalia of males. Meanwhile, SnocOBP10 was specifically expressed in male heads. Conclusion In total, 86 olfactory proteins were identified in S. noctilio, and 91 were identified in S. nitobei. Most SnocOBPs and SnitOBPs displayed enriched expression in the antennae, which are involved in odor recognition. A few OBPs were mainly expressed in the external genitals or heads and exhibited an obvious sex bias, which may indicate that the external genitals and heads are able to recognize sex pheromones or plant volatile compounds as a part of normal behaviors such as feeding, mating, or spawning. Our study provides key insights regarding the mechanism of interactions between the insect olfactory system and specific odor molecules.

scholarly journals Antennal transcriptome analysis and expression profiles of odorant binding proteins in two woodwasps, Sirex noctilio and S. nitobei (Hymenoptera: Siricidae)

2019 ◽  
Author(s):  
Bing Guo ◽  
Jing-Zhen Wang ◽  
Hai-Li Qiao ◽  
Wei-Wei Wu ◽  
Jing-Jiang Zhou ◽  
...  
Keyword(s):  
Transcriptome Analysis ◽  
Olfactory System ◽  
Native Species ◽  
Binding Proteins ◽  
Expression Profiles ◽  
External Genitalia ◽  
Sirex Noctilio ◽  
Odorant Binding Proteins ◽  
Odor Recognition ◽  
Odorant Binding

Abstract Background The olfactory system is the foundation of insect behavior. Odorant binding proteins (OBPs) are key components of the insect olfactory system. The woodwasp Sirex noctilio Fabricius is a major quarantine pest worldwide that was first discovered in China in 2013 and mainly harms members of the Pinus genus. S. nitobei Matsumura is a native species in China and is closely related to S. noctilio. To gain insights into the olfactory mechanisms of these two woodwasp species, olfactory genes were identified using antennal transcriptome analysis. We also analyzed the expression profiles of OBPs with RT-qPCR. Results From our transcriptome analysis, 16 OBPs, 7 chemosensory proteins (CSPs), 41 odorant receptors (ORs), 8 gustatory receptors (GRs), 13 ionotropic receptors (IRs), and one sensory neuron membrane protein (SNMP) were identified in S. noctilio, while 15 OBPs, 6 CSPs, 43 ORs, 10 GRs, 16 IRs, and 1 SNMP were identified in S. nitobei. Most of the olfactory genes identified in two species were homologous. However, some species-specific olfactory genes were identified in the antennal transcriptomes, including SnocOBP13, SnocCSP6, SnocOR26, SnitGR9, and SnitIR17. In total, 14 OBPs (7 in S. noctilio and 7 in S. nitobei) were expressed primarily in the antennae of the two woodwasps. SnocOBP11 and SnitOBP11 were highly expressed in antennae and were also clearly expressed in the external genitalia. SnocOBP3 is highly expressed in the genitalia of females, and SnocOBP7 and SnitOBP7 are highly expressed in the genitalia of males. Meanwhile, SnocOBP10 was specifically expressed in male heads. Conclusion In total, 86 olfactory proteins were identified in S. noctilio, and 91 were identified in S. nitobei. Most SnocOBPs and SnitOBPs displayed enriched expression in the antennae, which are involved in odor recognition. A few OBPs were mainly expressed in the external genitals or heads and exhibited an obvious sex bias, which may indicate that the external genitals and heads are able to recognize sex pheromones or plant volatile compounds as a part of normal behaviors such as feeding, mating, or spawning. Our study provides key insights regarding the mechanism of interactions between the insect olfactory system and specific odor molecules.

Identification and expression profiles analysis of odorant‐binding proteins in soybean aphid, Aphis glycines (Hemiptera: Aphididae)

2019 ◽  
Vol 27 (5) ◽  
pp. 1019-1030 ◽  
Author(s):  
Ling Wang ◽  
Ying‐Dong Bi ◽  
Ming Liu ◽  
Wei Li ◽  
Miao Liu ◽  
...  
Keyword(s):  
Binding Proteins ◽  
Expression Profiles ◽  
Soybean Aphid ◽  
Aphis Glycines ◽  
Odorant Binding Proteins ◽  
Odorant Binding

scholarly journals Distinct Expression Profiles and Different Functions of Odorant Binding Proteins in Nilaparvata lugens Stål

PLoS ONE ◽  
2011 ◽  
Vol 6 (12) ◽  
pp. e28921 ◽  
Author(s):  
Peng He ◽  
Jin Zhang ◽  
Nai-Yong Liu ◽  
Ya-Nan Zhang ◽  
Ke Yang ◽  
...  
Keyword(s):  
Binding Proteins ◽  
Expression Profiles ◽  
Nilaparvata Lugens ◽  
Odorant Binding Proteins ◽  
Nilaparvata Lugens Stål ◽  
Odorant Binding

scholarly journals Sex- and tissue-specific transcriptome analyses and expression profiling of olfactory-related genes in Ceracris nigricornis Walker (Orthoptera: Acrididae)

BMC Genomics ◽  
2019 ◽  
Vol 20 (1) ◽  
Author(s):  
Hao Yuan ◽  
Huihui Chang ◽  
Lina Zhao ◽  
Chao Yang ◽  
Yuan Huang
Keyword(s):  
Olfactory System ◽  
Binding Proteins ◽  
Expression Profiles ◽  
Odorant Receptors ◽  
Evolutionary Trend ◽  
Odorant Binding Proteins ◽  
Functional Studies ◽  
Host Seeking ◽  
Odorant Binding ◽  
First Time

Abstract Background The sophisticated insect olfactory system plays an important role in recognizing external odors and enabling insects to adapt to environment. Foraging, host seeking, mating, ovipositing and other forms of chemical communication are based on olfaction, which requires the participation of multiple olfactory genes. The exclusive evolutionary trend of the olfactory system in Orthoptera insects is an excellent model for studying olfactory evolution, but limited olfaction research is available for these species. The olfactory-related genes of Ceracris nigricornis Walker (Orthoptera: Acrididae), a severe pest of bamboos, have not yet been reported. Results We sequenced and analyzed the transcriptomes from different tissues of C. nigricornis and obtained 223.76 Gb clean data that were assembled into 43,603 unigenes with an N50 length of 2235 bp. Among the transcripts, 66.79% of unigenes were annotated. Based on annotation and tBLASTn results, 112 candidate olfactory-related genes were identified for the first time, including 20 odorant-binding proteins (OBPs), 10 chemosensory-binding proteins (CSPs), 71 odorant receptors (ORs), eight ionotropic receptors (IRs) and three sensory neuron membrane proteins (SNMPs). The fragments per kilobase per million mapped fragments (FPKM) values showed that most olfactory-related differentially expressed genes (DEGs) were enriched in the antennae, and these results were confirmed by detecting the expression of olfactory-related genes with quantitative real-time PCR (qRT-PCR). Among these antennae-enriched genes, some were sex-biased, indicating their different roles in the olfactory system of C. nigricornis. Conclusions This study provides the first comprehensive list and expression profiles of olfactory-related genes in C. nigricornis and a foundation for functional studies of these olfactory-related genes at the molecular level.

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