滞育烟蚜茧蜂的亲代效应评价

【目的】烟蚜茧蜂Aphidius gifuensis Ashmead是可持续防控蚜虫的优良内寄生蜂,适宜的低温短光照可诱导其进入滞育,滞育后产品货架期长达120 d,对害虫生防意义重大。为深入探索滞育烟蚜茧蜂的亲代效应,分析滞育机理,提高滞育诱导效率,指导该天敌产品的贮存实践,开展本项研究。【方法】在室内测试了滞育烟蚜茧蜂F1代的羽化率、性比、成蜂寿命、滞育率、寄生力以及F2代的羽化率、性比等生物学指标,综合评价滞育烟蚜茧蜂的亲代效应。【结果】滞育经历对烟蚜茧蜂子代的部分生物学性状具有显著性影响,F1代雌蜂比例显著增加,滞育维持30 d后子代雌蜂比例由0.59上升至0.65;F2代雌蜂比例与CK无差别,维持在0.58左右;F1代滞育率显著升高,可由对照的44.75%提高至74.01%,滞育维持30 d后子代滞育率具升高趋势;F1代寄生力略增加,各处理形成的僵蚜数在117~129头间,但无显著性差异;F1代羽化率、子代成蜂寿命与CK相比无差异。【结论】烟蚜茧蜂具有较显著的滞育亲代效应,亲代滞育经历可显著提高子一代的滞育率,利于子代抵御不良环境胁迫,提高种群存活率。     

Olfactory responses of Aphidius gifuensis to odors of host plants and aphid‐plant complexes

Abstract The olfactory responses of Aphidius gifuensis to odors from two host plants (Nicotiana tabacum and Brassica napus ssp.) and their complexes with different infestation levels of two host aphids (Myzus persicae and Lipaphis erysimi) were respectively examined in an olfactometer. The results showed that female A. gifuensis did not respond to odors of undamaged or mechanically damaged host plants, but significantly responded to odors of aphid/plant complexes. Moreover, A. gifuensis responded significantly to odors of both M. persicae and L. erysimi/plant complexes when host plants were infested by high levels of aphids, suggesting that quantity of aphid‐induced volatiles could be important for attracting A. gifuensis. When tested between aphid/plant complexes, A. gifuensis did not show its preference for either complex. The efficiency of A. gifuensis against aphids in open fields potentially could be improved by using its olfactory response to aphid/plant complexes.     

花椒窄吉丁触角转录组及嗅觉相关基因分析

【目的】建立花椒窄吉丁Agrilus zanthoxylumi成虫触角转录组数据库,挖掘嗅觉相关基因,为今后研究其触角的化学感受机制及生物防控提供理论支撑。【方法】采用高通量测序平台IlluminaNovaSeq 6000对花椒窄吉丁雌雄成虫触角进行转录组测序,用Trinity软件对获得的高质量reads进行序列拼接与组装;使用BLAST软件将触角转录组数据比对NR, NT, Swiss-Prot, GO, KEGG, BLASTX,eggNOG, Pfam, TmHMM, SignalP, KO, Map, BLASTP和RNAMMER公共数据库;基于初步筛选到的花椒窄吉丁候选气味结合蛋白(odorant binding protein, OBP)和化学感受蛋白(chemosensory protein, CSP)以及其他鞘翅目昆虫的同源蛋白的核苷酸序列,利用MEGA软件进行系统进化分析。运用RPKM (reads perkilobase per million mapped reads)值对嗅觉相关基因表达量进行分析。【结果】花椒窄吉丁雌雄成虫触角转录组测序共获得36 209条基因和90 982条转录本,其N₅₀分别为2 103和2 523 bp,组装完整性较高。注释到NR数据库的基因最多(41.62%),其中与赤拟谷盗Tribolium castaneum相似基因所占比例最高(19%)。在GO数据库中比对到11 614个基因,按功能分为细胞组分、分子功能与生物学进程三大类57个分支,其中分子功能大类中的结合(70.57%)与催化活性(45.51%)相关基因占比最多;KEGG代谢途径分析表明,7 427条基因参与了5类代谢通路,其中涉及信号转导的基因最多,为815条;筛选到7个候选OBP基因和5个具有全长开放阅读框的CSP基因,其编码蛋白均具有化学感受蛋白家族的典型特征。系统进化分析表明,花椒窄吉丁OBPs和CSPs分别与苹果小吉丁A. mali的OBPs和CSPs氨基酸序列一致性最高。RPKM值表明,嗅觉相关基因AzanOBP1和AzanOBP2在雌成虫触角中不表达,在雄成虫触角中微量表达;AzanOBP3在雄成虫触角中高丰度表达。【结论】首次获得了花椒窄吉丁成虫触角转录组数据,筛选到了花椒窄吉丁OBP, CSP, Or, IR和SNMP等的嗅觉相关基因。推测触角中高丰度表达的OBPs对雄成虫识别同类异性释放的信息素或寄主植物释放的挥发物起关键作用。研究结果可为花椒窄吉丁化学感受基因功能分析及嗅觉感受机制研究奠定分子基础。     

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

The soybean aphid, Aphis glycines, is an extreme specialist and an important invasive pest that relies on olfaction for behaviors such as feeding, mating, and foraging. Odorant‐binding proteins (OBPs) play a vital role in olfaction by binding to volatile compounds and by regulating insect sensing of the environment. In this work we used rapid amplification of complementary DNA ends technology to identify and characterize 10 genes encoding A. glycines OBPs (AglyOBPs) belonging to 3 subfamilies, including 4 classic OBPs, 5 Plus‐C OBPs, and one Minus‐C OBP. Quantitative real‐time polymerase chain reaction demonstrated variable specific expression patterns for the 10 genes based on developmental stage and aphid tissue sampled. Expression levels of 7 AglyOBPs (2, 3, 4, 5, 7, 9, and 10) were highest in the 4th instar, indicating that the 4th nymphal instar is an important developmental period during which soybean aphids regulate feeding and search for host plants. Tissue‐specific expression results demonstrated that AglyOBP2, 7, and 9 exhibited significantly higher expression levels in antennae. Meanwhile, ligand‐binding analysis of 5 OBPs demonstrated binding of AglyOBP2 and AglyOBP3 to a broad spectrum of volatiles released by green leaf plants, with bias toward 6‐ to 8‐carbon chain volatiles and strong binding of AglyOBP7 to trans‐β‐farnesene. Taken together, our findings build a foundation of knowledge for use in the study of molecular olfaction mechanisms and provide insights to guide future soybean aphid research.     

Convergent vomeronasal system reduction in mammals coincides with convergent losses of calcium signalling and odorant‐degrading genes

The vomeronasal system (VNS) serves crucial functions for detecting olfactory clues often related to social and sexual behaviour. Intriguingly, two of the main components of the VNS, the vomeronasal organ (VNO) and the accessory olfactory bulb, are regressed in aquatic mammals, several bats and primates, likely due to adaptations to different ecological niches. To detect genomic changes that are associated with the convergent reduction of the VNS, we performed the first systematic screen for convergently inactivated protein‐coding genes associated with convergent VNS reduction, considering 106 mammalian genomes. Extending previous studies, our results support that Trpc2, a cation channel that is important for calcium signalling in the VNO, is a predictive molecular marker for the presence of a VNS. Our screen also detected the convergent inactivation of the calcium‐binding protein S100z, the aldehyde oxidase Aox2 that is involved in odorant degradation, and the uncharacterized Mslnl gene that is expressed in the VNO and olfactory epithelium. Furthermore, we found that Trpc2 and S100z or Aox2 are also inactivated in otters and Phocid seals for which no morphological data about the VNS are available yet. This predicts a VNS reduction in these semi‐aquatic mammals. By examining the genomes of 115 species in total, our study provides a detailed picture of how the convergent reduction of the VNS coincides with gene inactivation in placental mammals. These inactivated genes provide experimental targets for studying the evolution and biological significance of the olfactory system under different environmental conditions.     

Population dynamics of Myzus persicae on tobacco in Yunnan Province,China, before and after augmentative releases of Aphidius gifuensis

The population dynamics of Myzus persicae were investigated in the field in a year without releases of Aphidius gifuensis (1998–1999), in a year with A. gifuensis releases (2000–2001) and several years later (2005–2007). The results showed that both high mean population densities and damage rates did not differ between 1998 and 1999, but were significantly lower in 2000–2001 and 2005–2007. Moreover, farmers also reported the decrease of M. persicae populations and attributed the declines to augmentative releases of A. gifuensis in their own fields, indicating farmers’ recognition in the effectiveness of A. gifuensis for M. persicae control. In addition, compared with the historical data on pesticide use for M. persicae control, the number of insecticide applications and cost of M. persicae control was sustained at a low level in 2007 (several years after release of A. gifuensis). This suggests that the augmentative releases of A. gifuensis could be effective and sustainable in M. persicae control.     

Expression pattern and ligand‐binding properties of odorant‐binding protein 13 from Monochamus alternatus hope

Odorant‐binding proteins (OBPs) are believed to play an important role in olfactory recognition. In this study, expression pattern and fluorescence binding characteristics of MaltOBP13 from the Japanese pine sawyer beetle, Monochamus alternatus Hope, were investigated via qPCR analysis of MaltOBP13 mRNA level and binding assay of MaltOBP13 and ligands. qPCR monitoring indicated MaltOBP13 mainly expressed in newly emerged males, particularly highly expressed in the last abdominal segment of males, and the expression level was significantly higher in 13‐day‐old mated adults than those of other stages. To further understand the function of the MaltOBP13 protein in odorant reception, the binding affinity of recombinant MaltOBP13 to ligands was tested by fluorescence binding assays with N‐phenyl‐1‐naphthylamine as a fluorescent probe. The results of this assay indicated that MaltOBP13 exhibited a high binding affinity for pine volatiles and binding capacity was higher in acidic conditions than in neutral environment, indicating a possible role in finding host plants.     

叉角厉蝽触角转录组及嗅觉相关基因分析

叉角厉蝽Eocanthecona furcellata是一种在生物防治方面有重要作用和潜力的捕食性天敌昆虫,触角是昆虫进行信息交换的重要器官,而嗅觉相关基因则是调控天敌昆虫捕食行为的重要分子基础。为获得叉角厉蝽触角转录组数据库,挖掘叉角厉蝽嗅觉相关基因,本研究利用Illumina高通量测序平台对叉角厉蝽雌雄成虫与5龄若虫触角进行转录组测序。成功构建了叉角厉蝽触角转录组,获得了67 843条unigenes, N50长度为2 300 bp。与七大公共数据库比对注释到27 686条unigenes,其中NR数据库注释最多(33.33%),且与茶翅蝽Halyomorpha halys相似度最高(64.20%)。14 258条注释到GO数据库中,分为生物过程、细胞组分和分子功能3个大类42个亚类;KEGG代谢途径分析表明,7 703条形成282条代谢通路,其中被注释在信号传导通路中的unigenes最多(11.50%)。进一步基因注释分析,鉴定得到134个候选嗅觉相关基因,32个化学感应蛋白基因(Chemosensory protein genes, CSP),10个气味结合蛋白基因(Odor...     

Identification of candidate chemosensory receptors in the antennal transcriptome of Tropidothorax elegans

Molecular Biology Reports - Chemosensory receptors in the dendritic membrane of olfactory cells are critical for the molecular recognition and discrimination of odorants. Tropidothorax elegans is a...     

Expression pattern analysis of odorant‐binding proteins in the pea aphid Acyrthosiphon pisum

Odorant‐binding proteins (OBPs) are soluble proteins mediating chemoreception in insects. In previous research, we investigated the molecular mechanisms adopted by aphids to detect the alarm pheromone (E)‐β‐farnesene and we found that the recognition of this and structurally related molecules is mediated by OBP3 and OBP7. Here, we show the differential expression patterns of 5 selected OBPs (OBP1, OBP3, OBP6, OBP7, OBP8) obtained performing quantitative RT‐PCR and immunolocalization experiments in different body parts of adults and in the 5 developmental instars, including winged and unwinged morphs, of the pea aphid Acyrthosiphon pisum. The results provide an overall picture that allows us to speculate on the relationship between the differential expression of OBPs and their putative function. The expression of OBP3, OBP6, and OBP7 in the antennal sensilla suggests a chemosensory function for these proteins, whereas the constant expression level of OBP8 in all instars could suggest a conserved role. Moreover, OBP1 and OBP3 are also expressed in nonsensory organs. A light and scanning electron microscopy study of sensilla on different body parts of aphid, in particular antennae, legs, mouthparts, and cornicles‐cauda, completes this research providing a guide to facilitate the mapping of OBP expression profiles.     

Isolation of alkane‐degrading bacteria from deep‐sea Mediterranean sediments

Aims: To isolate and identify alkane‐degrading bacteria from deep‐sea superficial sediments sampled at a north‐western Mediterranean station. Methods and Results: Sediments from the water/sediment interface at a 2400 m depth were sampled with a multicorer at the ANTARES site off the French Mediterranean coast and were promptly enriched with Maya crude oil as the sole source of carbon and energy. Alkane‐degrading bacteria belonging to the genera Alcanivorax, Pseudomonas, Marinobacter, Rhodococcus and Clavibacter‐like were isolated, indicating that the same groups were potentially involved in hydrocarbon biodegradation in deep sea as in coastal waters. Conclusions: These results confirm that members of Alcanivorax are important obligate alkane degraders in deep‐sea environments and coexist with other degrading bacteria inhabiting the deep‐subsurface sediment of the Mediterranean. Significance and Impact of the Study: The results suggest that the isolates obtained have potential applications in bioremediation strategies in deep‐sea environments and highlight the need to identify specific piezophilic hydrocarbon‐degrading bacteria (HCB) from these environments.     

Ligand binding and homology modelling of insect odorant‐binding proteins

This review describes the main characteristics of odorant‐binding proteins (OBPs) for homology modelling and presents a summary of structure prediction studies on insect OBPs, along with the steps involved and some limitations and improvements. The technique involves a computing approach to model protein structures and is based on a comparison between a target (unknown structure) and one or more templates (experimentally determined structures). As targets for structure prediction, OBPs are considered to play a functional role for recognition, desorption, scavenging, protection and transportation of hydrophobic molecules (odourants) across an aqueous environment (lymph) to olfactory receptor neurones (ORNs) located in sensilla, the main olfactory units of insect antennae. Lepidopteran pheromone‐binding proteins, a subgroup of OBPs, are characterized by remarkable structural features, in which high sequence identities (approximately 30%) among these OBPs and a large number of available templates can facilitate the prediction of precise homology models. Approximately 30 studies have been performed on insect OBPs using homology modelling as a tool to predict their structures. Although some of the studies have assessed ligand‐binding affinity using structural information and biochemical measurements, few have performed docking and molecular dynamic (MD) simulations as a virtual method to predict best ligands. Docking and MD simulations are discussed in the context of discovery of novel semiochemicals (super‐ligands) using homology modelling to conceive further strategies in insect management.     

Developmental expression of odorant‐binding proteins and chemosensory proteins in the embryos of Locusta migratoria

We have investigated the development of chemosensilla and the secretion of odorant‐binding proteins (OBPs) and chemosensory proteins (CSPs) in the embryo of Locusta migratoria manilensis. We first report the changes of each sensillum in embryo just preceding hatch in detail and show that different sensilla have different developmental processes. Trichogen cells are first involved in forming the structure of pegs, and then, after retraction, they start secreting OBPs and CSPs in the sensillar lymph. The synthesis of LmigOBP1 starts during the embryogenesis about 0.5 h preceding hatching, specifically in sensilla trichodea and basiconica of the antenna. LmigOBP2, instead, was only found in the outer sensillum lymph (oSl) of sensilla chaetica of the antenna, while we could not detect LmigOBP3 in any type of sensilla of the antenna. The ontogenesis of CSPs in the embryos is similar to that of OBPs. Expression of CSPI homolog in Locusta migratoria is detected using the antiserum raised against SgreCSPI. CSPI is specifically expressed in the outer sensillum lymph of sensilla chaetica of the antenna, and anti‐LmigCSPII dose not label any sensilla of the embryos. These data indicate that in locusts, OBPs and CSPs follow different temporal expression patterns, and also that OBPs are expressed in different types of sensilla. © 2009 Wiley Periodicals, Inc.