In Nilaparvata lugens,a serious and widespread rice pest,high fecundity is one of the important reasons for large populations and outbreaks.As embryogenesis is a critical process associated with insect fecundity,this ...In Nilaparvata lugens,a serious and widespread rice pest,high fecundity is one of the important reasons for large populations and outbreaks.As embryogenesis is a critical process associated with insect fecundity,this study investigated the function of the Mucin2-like gene(NlMuc2)in the embryogenesis of N.lugens.The results showed that NlMuc2 was highly expressed in female reproductive organs and in 1-day-old eggs.Knockdown of NlMuc2 via RNA interference(RNAi)in 3rd instar nymphs resulted in increased mortality.In 5th instar nymphs,NlMuc2 knockdown led to a dramatic reduction in egg hatchability from 86.0%to 24.0%,offspring numbers from 330.4 to 81.5,egg count from 382.4 to 217.0,and resulted in 86.0%of eggs exhibiting inverted embryos.In newly emerged females,NlMuc2 knockdown retarded ovarian development and decreased the number of mature eggs,with 51.0%of eggs containing inverted embryos.Transcriptome sequencing analysis of eggs revealed that numerous genes were downregulated after NlMuc2 knockdown,with 16 and 15 downregulated genes enriched in the Wnt and MAPK pathways,respectively.Temporal and spatial expression profiling of selected differentially expressed genes,including Axin,δ-Catenin,Glypican-4-like,and Ror-like in the Wnt pathway,and MKK4 in the MAPK pathway,showed expression patterns similar to NlMuc2.Knockdown of Ror-like,Glypican-4-like,or MKK4 reduced the total number of eggs.Knockdown of Axin or MKK4 reduced the egg hatchability.A similar phenotype of eggs with inverted embryos was also observed in eggs laid by dsMKK4-and dsAxin-treated females.Thus,NlMuc2 is involved in embryonic development mainly by regulating the Wnt and MAPK signaling pathways.These findings may provide new targets for pesticide design and RNAi-based control of N.lugens,and will also provide new insights into insect embryonic development and the function of insect mucins.展开更多
The feeding and oviposition behavior of the brown planthopper (BPH), Nilaparvata lugens on two transgenic indica rice homogenous genotypes (B1 and B6) with cry1Ab gene from Bacillus thuringiensis and trans...The feeding and oviposition behavior of the brown planthopper (BPH), Nilaparvata lugens on two transgenic indica rice homogenous genotypes (B1 and B6) with cry1Ab gene from Bacillus thuringiensis and transgenic restored line of hybrid rice (MSA) with SCK gene (a modified CpTI gene) were measured, compared with those on their corresponding non transgenic parental cultivars Jiazao935 and Minghui86 performed by BPH. Under the selection condition of host plants by BPH, loading percentage, oviposition preference and laying egg number of BPH both on transgenic cry1Ab rice and transgenic SCK rice were not significantly different from those on their controls, while their total number of probing wound caused by PBH expect for feeding on B1 plants was markedly more than that on the control. In contrast, under the non selection condition, total number of probing wound caused by BPH on either transgenic cry1Ab rice or transgenic SCK rice was pronouncedly more than those on their controls. Conversely, their honeydew amount excreted by BPH after feeding for 24 h was significantly less than those on the control. As a conclusion, three tested transgenic rice genotypes with insect resistance acted adverse effect on BHP feeding, and no marked effect on BPH oviposition.展开更多
Understanding the temperature affecting parasitic efficiency is critical to succeed in utilizing parasitoid as natural enemy in pest management. Laboratory studies were carried out to determine the effects of temperat...Understanding the temperature affecting parasitic efficiency is critical to succeed in utilizing parasitoid as natural enemy in pest management. Laboratory studies were carried out to determine the effects of temperature on parasitoid preference of female Anagrus nilaparvatae Pang et Wang (Hymenoptera:Mymaridae) to the eggs of whitebacked planthopper (WBPH), Sogatella furcifera Horváth and brown planthopper (BPH), Nilaparvata lugens Stl to build a composite model describing changes in parasitic response along a temperature gradient (18, 22, 26, 30, 34°C). The results showed that attack responses of A. nilaparvatae on WBPH and BPH were the best described by a Type II functional response. The two parameters, attack rates (a) and handling times (Th), of A. nilaparvatae to both eggs were influenced by the temperature. The maximum attack rates to WBPH (1.235) and BPH (1.049) were at 26 and 34°C, respectively, and the shortest handling times to WBPH (0.063) and BPH (0.057) were at 30 and 26°C, respectively. However, the optimal temperature for parasitic efficiency of A. nilaparvatae to WBPH and BPH eggs was both at 26°C, which showed that the present microclimate temperature of the habitat in the paddyfield was beneficial to A. nilaparvatae and indicated that parasitic efficiency of A. nilaparvatae would be impaired by global warming.展开更多
Effects of transgenic Bt rice on non-target pests following pesticide applications plays an important role in evaluating the ecological safety of transgenic rice. Changes of the life history parameters of laboratory p...Effects of transgenic Bt rice on non-target pests following pesticide applications plays an important role in evaluating the ecological safety of transgenic rice. Changes of the life history parameters of laboratory population of Nilaparvata lugens feeding on transgenic Bt rice T2A-1 and its parental line cv. MH63 as the control, and the contents of oxalic acid and soluble sugar following three pesticides (triazophos, jinggangmycin and chlorantraniliprole) treatments were investigated in this paper. Results showed that the population parameters of N. lugens and the physiological and biochemical parameters of rice did not differ significantly between T2A-1 and MH63 without pesticide application. But, the emergence rate (ER), the nymphal number of next generation (NN), and the index of population trend (IP) on T2A-1 treated with 10 mg L^-1 of triazophos were significantly higher than those on MH63, respectively, while the hatchability (HB) on T2A-1 treated with the three pesticides were obviously lower than those on MH 63. Furthermore, the content of oxalic acid in MH63 treated with 20 mg L-1 triazophos and, 40 and 80 mg L-1 chlorantraniliprole was significantly higher than that in T2A-1, while the content of soluble sugar in T2A-1 treated with 400 mg L-1 jinggangmycin was significantly higher than that in MH63. The results above indicated that triazophos in a low dose could cause a more favor of T2A-1 to population growth of N. lugens compared with MH 63.展开更多
It is predicted that the current atmospheric CO2 concentration will be doubled and global mean temperature will increase by 1.5-6°C by the end of this century. Although a number of studies have addressed the sep...It is predicted that the current atmospheric CO2 concentration will be doubled and global mean temperature will increase by 1.5-6°C by the end of this century. Although a number of studies have addressed the separate effects of CO2 and temperature on plant-insect interactions, few have concerned with their combined impacts. In the current study, a factorial experiment was carried out to examine the effect of a doubling CO2 concentration and a 3℃ temperature increase on a complete generation of the brown planthopper (Nilaparvata lugens) on rice (Oryza sativa). Both elevated CO2 and temperature increased rice stem height and biomass of stem parts. Leaf chlorophyll content increased under elevated CO2, but only in ambient temperature treatment. Water content of stem parts was reduced under elevated temperature, but only when coupled with elevated CO2. Elevated CO2 alone increased biomass of root and elevated temperature alone enhanced leaf area and reduced ratio of root to stem parts. Brown planthopper (BPH) nymphal development was accelerated, and weight of and honeydew excretion by the F1 adults was reduced under elevated temperature only. Longevity of brachypterous females was affected by a signiifcant interaction between CO2 and temperature. At elevated temperature, CO2 had no effect on female longevity, but at ambient temperature, the females lived shorter under elevated CO2. Female fecundity was higher at elevated than at ambient temperature and higher at elevated CO2 than at ambient CO2. These results indicate that the combined effects of elevated temperature and CO2 may enhance the brown planthopper population size.展开更多
Susceptibility to insecticides was investigated by collecting field populations of brown planthopper from different locations of southern Karnataka, India (Gangavati, Kathalagere, Kollegala, Soraba and Mandya). All ...Susceptibility to insecticides was investigated by collecting field populations of brown planthopper from different locations of southern Karnataka, India (Gangavati, Kathalagere, Kollegala, Soraba and Mandya). All the field populations differed in their susceptibility to insecticides. In general, Soraba and Mandya populations were more susceptible to insecticides compared to Gangavati and Kathalagere populations. The resistance ratios varied greatly among the populations viz., chlorpyriphos (1.13- to 16.82-fold), imidacloprid (0.53- to 13.50-fold), acephate (1.34- to 5.32-fold), fipronil (1.13- to 4.06-fold), thiamethoxam (1.01- to 2.19-fold), clothianidin (1.92- to 4.86-fold), dinotefuran (0.82- to 2.22- fold), buprofezin (1.06- to 5.43-fold) and carbofuran (0.41- to 2.17-fold). The populations from Gangavati Kathalagere and Kollegala exhibited higher resistance to some of the old insecticides and low resistance to new molecules.展开更多
To investigate the effect of temperature on the resistance characteristics of dce varieties with different resistance genes to brown planthopper (BPH), Nilaparvata lugens (Stal), the resistances of IR26 (Bphl) a...To investigate the effect of temperature on the resistance characteristics of dce varieties with different resistance genes to brown planthopper (BPH), Nilaparvata lugens (Stal), the resistances of IR26 (Bphl) and IR36 (bph2) to BPH population in Hangzhou, China were monitored in greenhouse during September in 2007 and 2008 by using the standard seedling screening techniques (SSST) developed by the International Rice Research Institute (IRRI). Furthermore, the changes in resistance of IR26 and IR36 to BPH, soluble sugar and oxalic acid contents in 25-day-old rice plants of susceptible variety TN1 and resistant varieties IR26 and IR36 were detected at five temperatures (22℃, 25℃, 28℃, 31℃ and 34℃). IR26 completely lost resistance both in greenhouse and at the five tested temperatures. IR36 still had moderate resistance at natural temperature, but its resistance decreased gradually when the temperature increased from 25℃ to 34℃, and fully lost its resistance at 31℃ and 34℃. The highest durable resistance of IR26 and IR36 were recorded at 25℃. The soluble sugar content in plants of the three tested rice varieties increased with temperature increase, and the oxalic acid content increased with the temperature increase at first, maximized at 25℃, and then declined. Two-way ANOVA indicated significant effects of temperature and rice variety on contents of soluble sugar and oxalic acid in rice plants展开更多
The brown planthopper Nilaparvata lugens Stal (Homoptera: Delphacidae) can cause hopperburn by feeding on rice and also can transmit the grassy stunt disease. Resistant rice varieties have been developed, but sever...The brown planthopper Nilaparvata lugens Stal (Homoptera: Delphacidae) can cause hopperburn by feeding on rice and also can transmit the grassy stunt disease. Resistant rice varieties have been developed, but several N. lugens strains can recover their virulence to these resistant rice varieties. In the present study, reference genes with stable expression levels in N. lugens populations showed different levels of virulence to susceptible and resistant rice varieties. The expression of six candidate reference genes in N. lugens feeding on susceptible and resistant rice varieties was analyzed. These genes were evaluated for their potential use in the analysis of differential gene expression. Polymerase chain reaction data was generated from N. lugens, including two different treatments (resistant or susceptible rice) and three virulent N. lugens populations. Three software programs (BestKeeper, Normfinder and geNorm) were used to assess the candidate reference genes. Both geNorm and Normfinder identified the genes 18S, E-ACT, E-TUB and a-TUB as the most stable reference genes. BestKeeper identified ETIF1 as the optimal reference gene with the least overall variation, whereas 18S and a-TUB were the second and third most stably expressed genes, respectively. Therefore, we concluded that the genes 18S and a-TUB were the most suitable reference genes in N. lugens. These results will facilitate future transcript profiling studies on N. lugens populations that show variation in virulence levels on different rice varieties.展开更多
Insect quantity is an important index for determining the degree of damage to plants.The brown planthopper(BPH),Nilaparvata lugens(Stal),is one of the most important rice pests in Asia.Here,we used two genotypes of BP...Insect quantity is an important index for determining the degree of damage to plants.The brown planthopper(BPH),Nilaparvata lugens(Stal),is one of the most important rice pests in Asia.Here,we used two genotypes of BPH,a highfecundity genotype(HFG)and a low-fecundity genotype(LFG),to measure their ecological fitness and to explore possible causes for genotype differentiation by transcriptome sequencing.Our results showed that there were significant differences in body weight,egg hatching rate and honeydew secretion between the HFG and LFG,particularly,the number of eggs laid per female was more significant.Transcriptional analysis showed that a total of 1966 differentially expressed genes(DEGs)were mainly involved in energy metabolism,carbohydrate and lipid syn thesis,in sect horm one syn thesis and fecun dity-related pathways.Moreover,we found that the phosphorylation levels of AMPK,AKT and FoxO and the synthesis of ecdysone were different between the two genotypes of BPH.These findings may partially explain the differenee in the ecological fitness between HFG and LFG.This study is the first to compare the differences between two genotypes of BPH and to provide transcriptomic evidenee to further understand the fecundity of BPH.展开更多
Anagrus nilaparvatae is the dominant egg parasitoid of rice planthoppers and plays an important role in biological control. Symbiotic bacteria can significantly influence the development, survival, reproduction and po...Anagrus nilaparvatae is the dominant egg parasitoid of rice planthoppers and plays an important role in biological control. Symbiotic bacteria can significantly influence the development, survival, reproduction and population differentiation of their hosts. To study the influence of temperature on symbiotic bacterial composition in the successive generations of A. nilaparvatae, A. nilaparvatae were raised under different constant temperatures of 22 °C, 25 °C, 28 °C, 31 °C and 34 °C. Polymerase chain reaction-denaturing gradient gel electrophoresis was used to investigate the diversity of symbiotic bacteria. Our results revealed that the endophytic bacteria of A. nilaparvatae were Pantoea sp., Pseudomonas sp. and some uncultured bacteria. The bacterial community composition in A. nilaparvatae significantly varied among different temperatures and generations, which might be partially caused by temperature, feeding behavior and the physical changes of hosts. However, the analysis of wsp gene showed that the Wolbachia in A. nilaparvatae belonged to group A, sub-group Mors and sub-group Dro. Sub-group Mors was absolutely dominant, and this Wolbachia composition remained stable in different temperatures and generations, except for the 3rd generation under 34 °C during which sub-group Dro became the dominant Wolbachia. The above results suggest that the continuous high temperature of 34 °C can influence the Wolbachia community composition in A. nilaparvatae.展开更多
In order to clarify the statistical pattern by which landfalling strong tropical cyclones(LSTCs)influenced the catastrophic migrations of rice brown planthopper(BPH),Nilaparvata lugens(stl)in China,the data of the L...In order to clarify the statistical pattern by which landfalling strong tropical cyclones(LSTCs)influenced the catastrophic migrations of rice brown planthopper(BPH),Nilaparvata lugens(stl)in China,the data of the LSTCs in China and the lighting catches of BPH that covered the main Chinese rice-growing regions from 1979 to 2008 were collected and analyzed in this work with the assistance of ArcGIS9.3,a software of geographic information system.The results were as follows:(1)In China,there were 220 strong tropical cyclones that passed the main rice-growing regions and 466 great events of BPH’s immigration in the 30 years from 1979 to 2008.73 of them resulted in the occurrence of BPH’s catastrphic migration(CM)events directly and 147 of them produced indirect effect on the migrations.(2)The number of the LSTCs was variable in different years during 1979 to 2008 and their influence was not the same in the BPH’s northward and southward migrations in the years.In the 30 years,the LSTCs brought more obvious influence on the migrations in 1980,1981,2005,2006 and 2007.The influence was the most obvious in2007 and all of the 7 LSTCs produced remarkable impact on the CMs of BPH’s populations.The effect of the LSTCs on the northward immigration of BPH’s populations was the most serious in 2006 and the influence on the southward immigration was the most remarkable in 2005.(3)In these years,the most of LSTCs occurred in July,August and September and great events of BPH's immigration occurred most frequently in the same months.The LSTCs played a more important role on the CM of BPH’s populations in the three months than in other months.(4)The analysis on the spatial distribution of the LSTCs and BPH’s immigration events for the different provinces showed that the BPH’s migrations in the main rice-growing regions of the Southeastern China were influenced by the LSTCs and the impact was different with the change of their spatial probability distribution during their passages.The most serious influence of the LSTCs on the BPH’s migrations occurred in Guangdong and Fujian provinces.(5)The statistical results indicated that a suitable insect source is an indispensable condition of the CMs of BPH when a LSTC influenced a rice-growing region.展开更多
The brown planthopper, Nilaparvata lugens is an economically important pest on rice plants. This species produces macropterous and brachypterous morphs in response to environmental cues, which makes it very dififcult ...The brown planthopper, Nilaparvata lugens is an economically important pest on rice plants. This species produces macropterous and brachypterous morphs in response to environmental cues, which makes it very dififcult to control. The molecular basis of wing patterning in N. lugens is stil unknown. It is necessary to identify wing patterning genes of N. lugens, and also to clarify the expression differences of wing patterning genes between macropterous and brachypter-ous morphs. High-throughput deep sequencing of transcriptome of N. lugens wing pad yielded 116 744 580 raw reads and 113 042 700 clean reads. Al the reads were assembled into 55 963 unigenes with an average length of 804 bp. With the E-value cut-off of 1.0E–5,18 359 and 2 883 unigens had hits in NCBI-NR (NCBI non-redundant protein sequences) and NCBI-NT (NCBI nucleotide sequences) databases, respectively. A total of 16 502 unigenes were assigned to GO (gene ontology) classiifcation, 9 709 ungenes were grouped into 26 COG (cluster of orthologous groups of proteins) classiifcations, and 6 724 unigenes were assigned to different KEGG (Kyoto encyclopedia of genes and genomes) path-ways. In total, 56 unigenes which are homologous to wing patterning genes of Drosophila melanogaster or Tribolium castaneum were identiifed. Out of the 56 unigenes, 24 unigenes were selected, and their expression levels across the ifve nymphal stages between macropterous strain and brachypterous strain were examined by qRT-PCR. Two-way ANOVA analysis showed that development stage had signiifcant effects on the expression level of al the 24 genes (P<0.05). The expression levels of 8 genes (Nlen, Nlhh, Nlsal, NlAbd-A, Nlwg, Nlvg, Nlexd and NlUbx) were signiifcantly affected by wing morph. This is the ifrst transcriptome analysis of wing pads of hemimetabolous insect, N. lugens. The identiifed wing patterning genes would be useful resource for future exploration of molecular basis of wing development. The 8 differential y expressed wing patterning genes between macropterous strain and brachypterous strain would contribute to explain molecular mechanism of wing-morph differentiation in N. lugens.展开更多
With the aim to examine variations in the migration phenology and population of N. lugens along with the advance/retreat of the Asian summer monsoon(ASM) and lay the foundation for further study on predicting the timi...With the aim to examine variations in the migration phenology and population of N. lugens along with the advance/retreat of the Asian summer monsoon(ASM) and lay the foundation for further study on predicting the timing and location of N. lugens outbreak, correlation analysis and spatial analysis were applied for estimating the impact of the ASM and its related meteorological factors on the migration phenology and population of N. lugens in China in this paper. The ASM had a positive effect on the occurrence and outbreak of N. lugens. First, the first appearance date of N.lugens was consistent with seasonal advances of the northernmost location of the ASM, and the ASM provided the dynamic condition for the northward migration of N. lugens. Second, outbreak of N. lugens occurred in the area under the control of the ASM, and the ASM provided the survival condition for the population of N. lugens. Third, the population was positively related to the northernmost location of the ASM, θ_E(850 hPa) and wind speed(850 hPa).Particularly, the stronger southwest wind caused the date of the first, peak and last catches of N. lugens to turn up earlier than in the extremely years.展开更多
Piggy Bac is a transposable DNA element originally discovered in the cabbage looper moth(Trichoplusia ni).The T.ni piggyBac transposon can introduce exogenous fragments into a genome,constructing a transgenic organism...Piggy Bac is a transposable DNA element originally discovered in the cabbage looper moth(Trichoplusia ni).The T.ni piggyBac transposon can introduce exogenous fragments into a genome,constructing a transgenic organism.Nevertheless,the comprehensive analysis of endogenous piggyBac-like elements(PLEs)is important before using piggyBac,because they may influence the genetic stability of transgenic lines.Herein,we conducted a genome-wide analysis of PLEs in the brown planthopper(BPH)Nilaparvata lugens(St?l)(Hemiptera:Delphacidae),and identified a total of 28 PLE sequences.All N.lugens piggy Bac-like elements(NlPLEs)were present as multiple copies in the genome of BPH.Among the identified NlPLEs,NlPLE25 had the highest copy number and it was distributed on five chromosomes.The full length of NlPLE25 consisted of terminal inverted repeats and sub-terminal inverted repeats at both terminals,as well as a single open reading frame transposase encoding546 amino acids.Furthermore,NlPLE25 transposase caused precise excision and transposition in cultured insect cells and also restored the original TTAA target sequence after excision.A cross-recognition between the NlPLE25 transposon and the piggy Bac transposon was also revealed in this study.These findings provide useful information for the construction of transgenic insect lines.展开更多
Serine/threonine phosphatase calcineurin(CN)is a unique but confounding calcium/calmodulin-mediated enzyme,which is composed of a catalytic subunit A(CNA)and a regulatory subunit B(CNB).We cloned six transcripts for C...Serine/threonine phosphatase calcineurin(CN)is a unique but confounding calcium/calmodulin-mediated enzyme,which is composed of a catalytic subunit A(CNA)and a regulatory subunit B(CNB).We cloned six transcripts for CNA named from NlCNA-X1 to NlCNA-X6,one CNB named NlCNB1 and one CNB homologous gene NlCNBH1 from Nilaparvata lugens.All of them are constitutively transcripted in various tissues and developmental stages.The primary structure of the six isoforms showed obvious differences in the length and composition of the amino acid sequence between the two binding domains of Ca^(2+)/calmodulin(CaM)and CNB.Ca^(2+)-binding EF-hand motifs were found in NlCNB1 and NlCNBH1.The specific gene silencing of NlCNA,NlCNB1 and NlCNBH1 respectively by RNAi resulted in drastical reduction in survival rate,female weight,eclosion rate and fecundity of N.lugens.These results showed that NlCNA,NlCNB1 and NlCNBH1 were required for N.lugens growth and reproduction.The negative effects of NlCNB1 silence on nymph mortality(97%),molting malformation(90%)and female sterile(50%)were more serious than those of NlCNA or NlCNBH1.qRT-PCR and enzyme-linked immunosorbent assay(ELISA)analyses indicated that the nymphs with silenced NlCNA,NlCNB1 or NlCNBH1 showed impaired hormone and energy metabolism.In nymphs,the contents of 20-hydroxyecdysone(20E)after NlCNB1 RNAi and phenoloxidase after NlCNA RNAi were particularly decreased.These results suggested that NlCNA is involved in immunity of N.lugens by regulation of phenoloxidase,while NlCNB1 may control the growth and development of N.lugens by 20E signaling pathway in addition to interact with CNA.Injection of 70 ng/μL dsNlCNB1 resulted in 77.0%down regulation of NlCNB1,and the nymph mortality was up to 57.9%at 10 d after injection.Therefore,NlCNB1 could be a potential candidate target used for strategy design in control of N.lugens.Our results revealed the importance of CN in the regulation of the growth and development of N.lugens,which provided a basis for further study of the molecular mechanism of CN.展开更多
The rice planthoppers,Nilaparvata lugens and Sogatella furcifera,are important sap-sucking pests of rice in Asia.The mesoionic insecticide tifumezopyrim was previously shown to be highly effective in controlling both ...The rice planthoppers,Nilaparvata lugens and Sogatella furcifera,are important sap-sucking pests of rice in Asia.The mesoionic insecticide tifumezopyrim was previously shown to be highly effective in controlling both N.lugens and S.furcifera.In this study,electropenetrography(EPG)was used to evaluate the effect of three triflumezopyrim concentrations(LC。LC。and LC)on the feeding behavior of N.lugens and S.furcifera.EPG signals of planthoppes indicated that there were six different waveforms NP,N1,N2,N3,N4,and N5,which corresponded to non-penetration,stylet penetration into epidermis,salivation,extracellular movement of stylet,sap ingestion in phloem,and water ingestion in xylem during feeding.Compared to untreated controls,triflumezopyrim at LC。and LC。prolonged the duration of the non-penetration period by 105.3 to 333.7%.The probing frequencies of N.lugens exposed to tiflumezopyrim at LC1。and LCso were significantly increased;however,the probing frequencies of S.furcifera showed a significant decrease when exposed to triflumezopyrim at all concentrations.Triflumezopyrim exposure prolonged the duration of salivation and shortened the duration of extracellular movement.The duration of phloem sap ingestion decreased from 37.2 to 77.7%in the LCgo and LCgo treatments,respectively.Differences in feeding behavior in response to triflumezopyrim and pymetrozine were minimal.In summary,the results show that the LC。and LCgo concentrations of trflumezopyrim inhibit the feeding activities of N.lugens and S.furcifera mainly by prolonging the duration of non penetration and by shortening the duration of phloem sap ingestion,which may foster more efficient use of triflumezopyrim in Asia.展开更多
Chemosensory proteins(CSPs)are important molecular components of the insect olfactory system,which are involved in capturing,binding,and transporting hydrophobic odour molecules across the sensillum in sensillar lymph...Chemosensory proteins(CSPs)are important molecular components of the insect olfactory system,which are involved in capturing,binding,and transporting hydrophobic odour molecules across the sensillum in sensillar lymph in regulating insect behavior.This protein family(CSPs)is also involved in many other systems that are not linked to olfactory receptors in olfactory sensilla.The brown planthopper(BPH)is a monophagous pest of rice that causes damage by sucking phloem sap and transmitting a number of diseases caused by viruses.In this study,fluorescence competitive binding assay and fluorescence quenching assay at acidic p H were performed as well as homology modelling to describe the binding affinity of Nlug CSP10.Fluorescence competitive binding assay(FCBA)demonstrated that Nlug CSP10 bound strongly to nonadecane,farnesene,and 2-tridecanone at acidic p H.The results of FCBA indicated that Nlug CSP10 bound different ligands at the physiological p H(5.0)of the bulk sensillum lymph.Fluorescence quenching assay demonstrated that Nlug CSP10 generated a stable complex with 2-tridecanone,while two ligands nonadecane and farnesene collided due to molecular collisions.The interaction of selected ligands with the modelled structure of Nlug CSP10 was also analyzed,which found the key amino acids(Gln23,Gln24,Gln25,Asn27,Met33,Ser34,Ile35,Tyr36,Asn42,Met43,Val45,Asn46,Asn93,Arg96,Ala97,Lys99,and Ala100)in Nlug CSP10 that were involved in binding of volatile compounds.The present study contributes to the binding profile of Nlug CSP10 that promotes the development of behaviorally active ligands based on BPH olfactory system.展开更多
基金supported by the National Natural Science Foundation of China(Grant No.32272538)China Agriculture Research System(Grant No.CARS-01)the Fundamental Research Funds for Central Public Welfare Research Institute,China(Grant No.CPSIBRF-CNRRI-202406).
文摘In Nilaparvata lugens,a serious and widespread rice pest,high fecundity is one of the important reasons for large populations and outbreaks.As embryogenesis is a critical process associated with insect fecundity,this study investigated the function of the Mucin2-like gene(NlMuc2)in the embryogenesis of N.lugens.The results showed that NlMuc2 was highly expressed in female reproductive organs and in 1-day-old eggs.Knockdown of NlMuc2 via RNA interference(RNAi)in 3rd instar nymphs resulted in increased mortality.In 5th instar nymphs,NlMuc2 knockdown led to a dramatic reduction in egg hatchability from 86.0%to 24.0%,offspring numbers from 330.4 to 81.5,egg count from 382.4 to 217.0,and resulted in 86.0%of eggs exhibiting inverted embryos.In newly emerged females,NlMuc2 knockdown retarded ovarian development and decreased the number of mature eggs,with 51.0%of eggs containing inverted embryos.Transcriptome sequencing analysis of eggs revealed that numerous genes were downregulated after NlMuc2 knockdown,with 16 and 15 downregulated genes enriched in the Wnt and MAPK pathways,respectively.Temporal and spatial expression profiling of selected differentially expressed genes,including Axin,δ-Catenin,Glypican-4-like,and Ror-like in the Wnt pathway,and MKK4 in the MAPK pathway,showed expression patterns similar to NlMuc2.Knockdown of Ror-like,Glypican-4-like,or MKK4 reduced the total number of eggs.Knockdown of Axin or MKK4 reduced the egg hatchability.A similar phenotype of eggs with inverted embryos was also observed in eggs laid by dsMKK4-and dsAxin-treated females.Thus,NlMuc2 is involved in embryonic development mainly by regulating the Wnt and MAPK signaling pathways.These findings may provide new targets for pesticide design and RNAi-based control of N.lugens,and will also provide new insights into insect embryonic development and the function of insect mucins.
文摘The feeding and oviposition behavior of the brown planthopper (BPH), Nilaparvata lugens on two transgenic indica rice homogenous genotypes (B1 and B6) with cry1Ab gene from Bacillus thuringiensis and transgenic restored line of hybrid rice (MSA) with SCK gene (a modified CpTI gene) were measured, compared with those on their corresponding non transgenic parental cultivars Jiazao935 and Minghui86 performed by BPH. Under the selection condition of host plants by BPH, loading percentage, oviposition preference and laying egg number of BPH both on transgenic cry1Ab rice and transgenic SCK rice were not significantly different from those on their controls, while their total number of probing wound caused by PBH expect for feeding on B1 plants was markedly more than that on the control. In contrast, under the non selection condition, total number of probing wound caused by BPH on either transgenic cry1Ab rice or transgenic SCK rice was pronouncedly more than those on their controls. Conversely, their honeydew amount excreted by BPH after feeding for 24 h was significantly less than those on the control. As a conclusion, three tested transgenic rice genotypes with insect resistance acted adverse effect on BHP feeding, and no marked effect on BPH oviposition.
基金supported by the Special Fund for Agro-Scientific Research in the Public Interest, China (200903051 and 200803003)
文摘Understanding the temperature affecting parasitic efficiency is critical to succeed in utilizing parasitoid as natural enemy in pest management. Laboratory studies were carried out to determine the effects of temperature on parasitoid preference of female Anagrus nilaparvatae Pang et Wang (Hymenoptera:Mymaridae) to the eggs of whitebacked planthopper (WBPH), Sogatella furcifera Horváth and brown planthopper (BPH), Nilaparvata lugens Stl to build a composite model describing changes in parasitic response along a temperature gradient (18, 22, 26, 30, 34°C). The results showed that attack responses of A. nilaparvatae on WBPH and BPH were the best described by a Type II functional response. The two parameters, attack rates (a) and handling times (Th), of A. nilaparvatae to both eggs were influenced by the temperature. The maximum attack rates to WBPH (1.235) and BPH (1.049) were at 26 and 34°C, respectively, and the shortest handling times to WBPH (0.063) and BPH (0.057) were at 30 and 26°C, respectively. However, the optimal temperature for parasitic efficiency of A. nilaparvatae to WBPH and BPH eggs was both at 26°C, which showed that the present microclimate temperature of the habitat in the paddyfield was beneficial to A. nilaparvatae and indicated that parasitic efficiency of A. nilaparvatae would be impaired by global warming.
基金funded by the National Science and Technology Major Project of the Ministry of Science and Technology of China (2009ZX08011-009B)the Scientific Innovation Research of College Graduate in Jiangsu Province, China (CXZZ11-0986)
文摘Effects of transgenic Bt rice on non-target pests following pesticide applications plays an important role in evaluating the ecological safety of transgenic rice. Changes of the life history parameters of laboratory population of Nilaparvata lugens feeding on transgenic Bt rice T2A-1 and its parental line cv. MH63 as the control, and the contents of oxalic acid and soluble sugar following three pesticides (triazophos, jinggangmycin and chlorantraniliprole) treatments were investigated in this paper. Results showed that the population parameters of N. lugens and the physiological and biochemical parameters of rice did not differ significantly between T2A-1 and MH63 without pesticide application. But, the emergence rate (ER), the nymphal number of next generation (NN), and the index of population trend (IP) on T2A-1 treated with 10 mg L^-1 of triazophos were significantly higher than those on MH63, respectively, while the hatchability (HB) on T2A-1 treated with the three pesticides were obviously lower than those on MH 63. Furthermore, the content of oxalic acid in MH63 treated with 20 mg L-1 triazophos and, 40 and 80 mg L-1 chlorantraniliprole was significantly higher than that in T2A-1, while the content of soluble sugar in T2A-1 treated with 400 mg L-1 jinggangmycin was significantly higher than that in MH63. The results above indicated that triazophos in a low dose could cause a more favor of T2A-1 to population growth of N. lugens compared with MH 63.
基金funded by the National Basic Research Program of China(2010CB951503)
文摘It is predicted that the current atmospheric CO2 concentration will be doubled and global mean temperature will increase by 1.5-6&#176;C by the end of this century. Although a number of studies have addressed the separate effects of CO2 and temperature on plant-insect interactions, few have concerned with their combined impacts. In the current study, a factorial experiment was carried out to examine the effect of a doubling CO2 concentration and a 3℃ temperature increase on a complete generation of the brown planthopper (Nilaparvata lugens) on rice (Oryza sativa). Both elevated CO2 and temperature increased rice stem height and biomass of stem parts. Leaf chlorophyll content increased under elevated CO2, but only in ambient temperature treatment. Water content of stem parts was reduced under elevated temperature, but only when coupled with elevated CO2. Elevated CO2 alone increased biomass of root and elevated temperature alone enhanced leaf area and reduced ratio of root to stem parts. Brown planthopper (BPH) nymphal development was accelerated, and weight of and honeydew excretion by the F1 adults was reduced under elevated temperature only. Longevity of brachypterous females was affected by a signiifcant interaction between CO2 and temperature. At elevated temperature, CO2 had no effect on female longevity, but at ambient temperature, the females lived shorter under elevated CO2. Female fecundity was higher at elevated than at ambient temperature and higher at elevated CO2 than at ambient CO2. These results indicate that the combined effects of elevated temperature and CO2 may enhance the brown planthopper population size.
文摘Susceptibility to insecticides was investigated by collecting field populations of brown planthopper from different locations of southern Karnataka, India (Gangavati, Kathalagere, Kollegala, Soraba and Mandya). All the field populations differed in their susceptibility to insecticides. In general, Soraba and Mandya populations were more susceptible to insecticides compared to Gangavati and Kathalagere populations. The resistance ratios varied greatly among the populations viz., chlorpyriphos (1.13- to 16.82-fold), imidacloprid (0.53- to 13.50-fold), acephate (1.34- to 5.32-fold), fipronil (1.13- to 4.06-fold), thiamethoxam (1.01- to 2.19-fold), clothianidin (1.92- to 4.86-fold), dinotefuran (0.82- to 2.22- fold), buprofezin (1.06- to 5.43-fold) and carbofuran (0.41- to 2.17-fold). The populations from Gangavati Kathalagere and Kollegala exhibited higher resistance to some of the old insecticides and low resistance to new molecules.
基金supported by the National Basic Research Program of China Grant No.2010CB126202the AgroIndustry R&D Special Fund of China Grant No.200803003the Zhejiang Provincial Natural Science Foundation of ChinaGrant No.Z3080437
文摘To investigate the effect of temperature on the resistance characteristics of dce varieties with different resistance genes to brown planthopper (BPH), Nilaparvata lugens (Stal), the resistances of IR26 (Bphl) and IR36 (bph2) to BPH population in Hangzhou, China were monitored in greenhouse during September in 2007 and 2008 by using the standard seedling screening techniques (SSST) developed by the International Rice Research Institute (IRRI). Furthermore, the changes in resistance of IR26 and IR36 to BPH, soluble sugar and oxalic acid contents in 25-day-old rice plants of susceptible variety TN1 and resistant varieties IR26 and IR36 were detected at five temperatures (22℃, 25℃, 28℃, 31℃ and 34℃). IR26 completely lost resistance both in greenhouse and at the five tested temperatures. IR36 still had moderate resistance at natural temperature, but its resistance decreased gradually when the temperature increased from 25℃ to 34℃, and fully lost its resistance at 31℃ and 34℃. The highest durable resistance of IR26 and IR36 were recorded at 25℃. The soluble sugar content in plants of the three tested rice varieties increased with temperature increase, and the oxalic acid content increased with the temperature increase at first, maximized at 25℃, and then declined. Two-way ANOVA indicated significant effects of temperature and rice variety on contents of soluble sugar and oxalic acid in rice plants
基金supported by the National Basic Research Program of China (973 Program) (Grant No. 2010CB126206)Central Public-Interest Scientific Institution Basal Research Program (Grant No. 2009RG004-3)+1 种基金National Natural Science Foundation of China (Grant No. 3120512)Natural Science Foundation of Zhejiang Province, China (Grant No. Y3110461)
文摘The brown planthopper Nilaparvata lugens Stal (Homoptera: Delphacidae) can cause hopperburn by feeding on rice and also can transmit the grassy stunt disease. Resistant rice varieties have been developed, but several N. lugens strains can recover their virulence to these resistant rice varieties. In the present study, reference genes with stable expression levels in N. lugens populations showed different levels of virulence to susceptible and resistant rice varieties. The expression of six candidate reference genes in N. lugens feeding on susceptible and resistant rice varieties was analyzed. These genes were evaluated for their potential use in the analysis of differential gene expression. Polymerase chain reaction data was generated from N. lugens, including two different treatments (resistant or susceptible rice) and three virulent N. lugens populations. Three software programs (BestKeeper, Normfinder and geNorm) were used to assess the candidate reference genes. Both geNorm and Normfinder identified the genes 18S, E-ACT, E-TUB and a-TUB as the most stable reference genes. BestKeeper identified ETIF1 as the optimal reference gene with the least overall variation, whereas 18S and a-TUB were the second and third most stably expressed genes, respectively. Therefore, we concluded that the genes 18S and a-TUB were the most suitable reference genes in N. lugens. These results will facilitate future transcript profiling studies on N. lugens populations that show variation in virulence levels on different rice varieties.
基金This work was funded by the National Natural Science Foundation of China(31672021).
文摘Insect quantity is an important index for determining the degree of damage to plants.The brown planthopper(BPH),Nilaparvata lugens(Stal),is one of the most important rice pests in Asia.Here,we used two genotypes of BPH,a highfecundity genotype(HFG)and a low-fecundity genotype(LFG),to measure their ecological fitness and to explore possible causes for genotype differentiation by transcriptome sequencing.Our results showed that there were significant differences in body weight,egg hatching rate and honeydew secretion between the HFG and LFG,particularly,the number of eggs laid per female was more significant.Transcriptional analysis showed that a total of 1966 differentially expressed genes(DEGs)were mainly involved in energy metabolism,carbohydrate and lipid syn thesis,in sect horm one syn thesis and fecun dity-related pathways.Moreover,we found that the phosphorylation levels of AMPK,AKT and FoxO and the synthesis of ecdysone were different between the two genotypes of BPH.These findings may partially explain the differenee in the ecological fitness between HFG and LFG.This study is the first to compare the differences between two genotypes of BPH and to provide transcriptomic evidenee to further understand the fecundity of BPH.
基金supported jointly by the National Basic Research Program of China (Grant No. 2010CB126202)the Agro-Industry R&D Special Fund of China (Grant No. 200903051)Zhejiang Provincial Key Project on Agricultural Science of China (Grant No. 2011C12022)
文摘Anagrus nilaparvatae is the dominant egg parasitoid of rice planthoppers and plays an important role in biological control. Symbiotic bacteria can significantly influence the development, survival, reproduction and population differentiation of their hosts. To study the influence of temperature on symbiotic bacterial composition in the successive generations of A. nilaparvatae, A. nilaparvatae were raised under different constant temperatures of 22 °C, 25 °C, 28 °C, 31 °C and 34 °C. Polymerase chain reaction-denaturing gradient gel electrophoresis was used to investigate the diversity of symbiotic bacteria. Our results revealed that the endophytic bacteria of A. nilaparvatae were Pantoea sp., Pseudomonas sp. and some uncultured bacteria. The bacterial community composition in A. nilaparvatae significantly varied among different temperatures and generations, which might be partially caused by temperature, feeding behavior and the physical changes of hosts. However, the analysis of wsp gene showed that the Wolbachia in A. nilaparvatae belonged to group A, sub-group Mors and sub-group Dro. Sub-group Mors was absolutely dominant, and this Wolbachia composition remained stable in different temperatures and generations, except for the 3rd generation under 34 °C during which sub-group Dro became the dominant Wolbachia. The above results suggest that the continuous high temperature of 34 °C can influence the Wolbachia community composition in A. nilaparvatae.
基金National Natural Science Foundation of China(41075086,30671340)National Meteorological Public Professional Science and Technology Program of China(GYHY201006026)+1 种基金Agricultural Science and Technology Independent Innovation Foundation in Jiangsu Province(CX(12)3056)Priority Academic Program Development of Jiangsu Higher Education Institutions
文摘In order to clarify the statistical pattern by which landfalling strong tropical cyclones(LSTCs)influenced the catastrophic migrations of rice brown planthopper(BPH),Nilaparvata lugens(stl)in China,the data of the LSTCs in China and the lighting catches of BPH that covered the main Chinese rice-growing regions from 1979 to 2008 were collected and analyzed in this work with the assistance of ArcGIS9.3,a software of geographic information system.The results were as follows:(1)In China,there were 220 strong tropical cyclones that passed the main rice-growing regions and 466 great events of BPH’s immigration in the 30 years from 1979 to 2008.73 of them resulted in the occurrence of BPH’s catastrphic migration(CM)events directly and 147 of them produced indirect effect on the migrations.(2)The number of the LSTCs was variable in different years during 1979 to 2008 and their influence was not the same in the BPH’s northward and southward migrations in the years.In the 30 years,the LSTCs brought more obvious influence on the migrations in 1980,1981,2005,2006 and 2007.The influence was the most obvious in2007 and all of the 7 LSTCs produced remarkable impact on the CMs of BPH’s populations.The effect of the LSTCs on the northward immigration of BPH’s populations was the most serious in 2006 and the influence on the southward immigration was the most remarkable in 2005.(3)In these years,the most of LSTCs occurred in July,August and September and great events of BPH's immigration occurred most frequently in the same months.The LSTCs played a more important role on the CM of BPH’s populations in the three months than in other months.(4)The analysis on the spatial distribution of the LSTCs and BPH’s immigration events for the different provinces showed that the BPH’s migrations in the main rice-growing regions of the Southeastern China were influenced by the LSTCs and the impact was different with the change of their spatial probability distribution during their passages.The most serious influence of the LSTCs on the BPH’s migrations occurred in Guangdong and Fujian provinces.(5)The statistical results indicated that a suitable insect source is an indispensable condition of the CMs of BPH when a LSTC influenced a rice-growing region.
基金supported by the National Natural Science Foundation of China (31171846)
文摘The brown planthopper, Nilaparvata lugens is an economically important pest on rice plants. This species produces macropterous and brachypterous morphs in response to environmental cues, which makes it very dififcult to control. The molecular basis of wing patterning in N. lugens is stil unknown. It is necessary to identify wing patterning genes of N. lugens, and also to clarify the expression differences of wing patterning genes between macropterous and brachypter-ous morphs. High-throughput deep sequencing of transcriptome of N. lugens wing pad yielded 116 744 580 raw reads and 113 042 700 clean reads. Al the reads were assembled into 55 963 unigenes with an average length of 804 bp. With the E-value cut-off of 1.0E–5,18 359 and 2 883 unigens had hits in NCBI-NR (NCBI non-redundant protein sequences) and NCBI-NT (NCBI nucleotide sequences) databases, respectively. A total of 16 502 unigenes were assigned to GO (gene ontology) classiifcation, 9 709 ungenes were grouped into 26 COG (cluster of orthologous groups of proteins) classiifcations, and 6 724 unigenes were assigned to different KEGG (Kyoto encyclopedia of genes and genomes) path-ways. In total, 56 unigenes which are homologous to wing patterning genes of Drosophila melanogaster or Tribolium castaneum were identiifed. Out of the 56 unigenes, 24 unigenes were selected, and their expression levels across the ifve nymphal stages between macropterous strain and brachypterous strain were examined by qRT-PCR. Two-way ANOVA analysis showed that development stage had signiifcant effects on the expression level of al the 24 genes (P<0.05). The expression levels of 8 genes (Nlen, Nlhh, Nlsal, NlAbd-A, Nlwg, Nlvg, Nlexd and NlUbx) were signiifcantly affected by wing morph. This is the ifrst transcriptome analysis of wing pads of hemimetabolous insect, N. lugens. The identiifed wing patterning genes would be useful resource for future exploration of molecular basis of wing development. The 8 differential y expressed wing patterning genes between macropterous strain and brachypterous strain would contribute to explain molecular mechanism of wing-morph differentiation in N. lugens.
基金National Natural Science Foundation of China(41475106,41075086)Agricultural Science and Technology Independent Innovation Foundation in Jiangsu Province(CX(12)3056)+1 种基金Natural Science Research Program of Jiangsu Higher Education Institutions(14KJA170003)Priority Academic Program Development of Jiangsu Higher Education Institutions(IRT1147)
文摘With the aim to examine variations in the migration phenology and population of N. lugens along with the advance/retreat of the Asian summer monsoon(ASM) and lay the foundation for further study on predicting the timing and location of N. lugens outbreak, correlation analysis and spatial analysis were applied for estimating the impact of the ASM and its related meteorological factors on the migration phenology and population of N. lugens in China in this paper. The ASM had a positive effect on the occurrence and outbreak of N. lugens. First, the first appearance date of N.lugens was consistent with seasonal advances of the northernmost location of the ASM, and the ASM provided the dynamic condition for the northward migration of N. lugens. Second, outbreak of N. lugens occurred in the area under the control of the ASM, and the ASM provided the survival condition for the population of N. lugens. Third, the population was positively related to the northernmost location of the ASM, θ_E(850 hPa) and wind speed(850 hPa).Particularly, the stronger southwest wind caused the date of the first, peak and last catches of N. lugens to turn up earlier than in the extremely years.
基金the Foundation of Guangzhou Science and Technology Key Project(No.201904020041),China。
文摘Piggy Bac is a transposable DNA element originally discovered in the cabbage looper moth(Trichoplusia ni).The T.ni piggyBac transposon can introduce exogenous fragments into a genome,constructing a transgenic organism.Nevertheless,the comprehensive analysis of endogenous piggyBac-like elements(PLEs)is important before using piggyBac,because they may influence the genetic stability of transgenic lines.Herein,we conducted a genome-wide analysis of PLEs in the brown planthopper(BPH)Nilaparvata lugens(St?l)(Hemiptera:Delphacidae),and identified a total of 28 PLE sequences.All N.lugens piggy Bac-like elements(NlPLEs)were present as multiple copies in the genome of BPH.Among the identified NlPLEs,NlPLE25 had the highest copy number and it was distributed on five chromosomes.The full length of NlPLE25 consisted of terminal inverted repeats and sub-terminal inverted repeats at both terminals,as well as a single open reading frame transposase encoding546 amino acids.Furthermore,NlPLE25 transposase caused precise excision and transposition in cultured insect cells and also restored the original TTAA target sequence after excision.A cross-recognition between the NlPLE25 transposon and the piggy Bac transposon was also revealed in this study.These findings provide useful information for the construction of transgenic insect lines.
基金This study was supported by the China Agriculture Research System(Grant No.CARS-01-38)Rice Pest Management Research Group of the Agricultural Science and Technology Innovation Program of China Academy of Agricultural Science(Grant No.CAAS-ASTIP-2016-CNRRI)+1 种基金Central Public-Interest Scientific Institution Basal Research Fund of China(Grant No.CPSIBRF-CNRRI-202122)Open Project Program of State Key Laboratory of Rice Biology,China(Grant No.20210302).
文摘Serine/threonine phosphatase calcineurin(CN)is a unique but confounding calcium/calmodulin-mediated enzyme,which is composed of a catalytic subunit A(CNA)and a regulatory subunit B(CNB).We cloned six transcripts for CNA named from NlCNA-X1 to NlCNA-X6,one CNB named NlCNB1 and one CNB homologous gene NlCNBH1 from Nilaparvata lugens.All of them are constitutively transcripted in various tissues and developmental stages.The primary structure of the six isoforms showed obvious differences in the length and composition of the amino acid sequence between the two binding domains of Ca^(2+)/calmodulin(CaM)and CNB.Ca^(2+)-binding EF-hand motifs were found in NlCNB1 and NlCNBH1.The specific gene silencing of NlCNA,NlCNB1 and NlCNBH1 respectively by RNAi resulted in drastical reduction in survival rate,female weight,eclosion rate and fecundity of N.lugens.These results showed that NlCNA,NlCNB1 and NlCNBH1 were required for N.lugens growth and reproduction.The negative effects of NlCNB1 silence on nymph mortality(97%),molting malformation(90%)and female sterile(50%)were more serious than those of NlCNA or NlCNBH1.qRT-PCR and enzyme-linked immunosorbent assay(ELISA)analyses indicated that the nymphs with silenced NlCNA,NlCNB1 or NlCNBH1 showed impaired hormone and energy metabolism.In nymphs,the contents of 20-hydroxyecdysone(20E)after NlCNB1 RNAi and phenoloxidase after NlCNA RNAi were particularly decreased.These results suggested that NlCNA is involved in immunity of N.lugens by regulation of phenoloxidase,while NlCNB1 may control the growth and development of N.lugens by 20E signaling pathway in addition to interact with CNA.Injection of 70 ng/μL dsNlCNB1 resulted in 77.0%down regulation of NlCNB1,and the nymph mortality was up to 57.9%at 10 d after injection.Therefore,NlCNB1 could be a potential candidate target used for strategy design in control of N.lugens.Our results revealed the importance of CN in the regulation of the growth and development of N.lugens,which provided a basis for further study of the molecular mechanism of CN.
基金Supported by the National Natural Science Foundation of China(31872928)the Jiangsu Agricultural Scientific Self-Innovation Fund,China(cx[18]3057)+1 种基金the National Key R&D Program of China(2018YFD0300804)the Key Research Program of Jiangsu Province,China(BE2018355).
文摘The rice planthoppers,Nilaparvata lugens and Sogatella furcifera,are important sap-sucking pests of rice in Asia.The mesoionic insecticide tifumezopyrim was previously shown to be highly effective in controlling both N.lugens and S.furcifera.In this study,electropenetrography(EPG)was used to evaluate the effect of three triflumezopyrim concentrations(LC。LC。and LC)on the feeding behavior of N.lugens and S.furcifera.EPG signals of planthoppes indicated that there were six different waveforms NP,N1,N2,N3,N4,and N5,which corresponded to non-penetration,stylet penetration into epidermis,salivation,extracellular movement of stylet,sap ingestion in phloem,and water ingestion in xylem during feeding.Compared to untreated controls,triflumezopyrim at LC。and LC。prolonged the duration of the non-penetration period by 105.3 to 333.7%.The probing frequencies of N.lugens exposed to tiflumezopyrim at LC1。and LCso were significantly increased;however,the probing frequencies of S.furcifera showed a significant decrease when exposed to triflumezopyrim at all concentrations.Triflumezopyrim exposure prolonged the duration of salivation and shortened the duration of extracellular movement.The duration of phloem sap ingestion decreased from 37.2 to 77.7%in the LCgo and LCgo treatments,respectively.Differences in feeding behavior in response to triflumezopyrim and pymetrozine were minimal.In summary,the results show that the LC。and LCgo concentrations of trflumezopyrim inhibit the feeding activities of N.lugens and S.furcifera mainly by prolonging the duration of non penetration and by shortening the duration of phloem sap ingestion,which may foster more efficient use of triflumezopyrim in Asia.
基金supported and funded by the National Key Research and Development Program of China(2017YFE0113900)the Special Technical Innovation of Hubei Province,China(2017ABA146)。
文摘Chemosensory proteins(CSPs)are important molecular components of the insect olfactory system,which are involved in capturing,binding,and transporting hydrophobic odour molecules across the sensillum in sensillar lymph in regulating insect behavior.This protein family(CSPs)is also involved in many other systems that are not linked to olfactory receptors in olfactory sensilla.The brown planthopper(BPH)is a monophagous pest of rice that causes damage by sucking phloem sap and transmitting a number of diseases caused by viruses.In this study,fluorescence competitive binding assay and fluorescence quenching assay at acidic p H were performed as well as homology modelling to describe the binding affinity of Nlug CSP10.Fluorescence competitive binding assay(FCBA)demonstrated that Nlug CSP10 bound strongly to nonadecane,farnesene,and 2-tridecanone at acidic p H.The results of FCBA indicated that Nlug CSP10 bound different ligands at the physiological p H(5.0)of the bulk sensillum lymph.Fluorescence quenching assay demonstrated that Nlug CSP10 generated a stable complex with 2-tridecanone,while two ligands nonadecane and farnesene collided due to molecular collisions.The interaction of selected ligands with the modelled structure of Nlug CSP10 was also analyzed,which found the key amino acids(Gln23,Gln24,Gln25,Asn27,Met33,Ser34,Ile35,Tyr36,Asn42,Met43,Val45,Asn46,Asn93,Arg96,Ala97,Lys99,and Ala100)in Nlug CSP10 that were involved in binding of volatile compounds.The present study contributes to the binding profile of Nlug CSP10 that promotes the development of behaviorally active ligands based on BPH olfactory system.
