Identification and functional characterization of ApisOr23 in pea aphid Acyrthosiphon pisum

Pea aphid,Acyrthosiphon pisum,is a serious pest of many different leguminous plants,and it mainly relies on its odorant receptors(Ors)to discriminate among host species.However,less is known about the role that Ors play in the host plant location.In this study,we identified a novel conserved odorant receptor clade by phylogenetic analysis,and conducted the functional analysis of ApisOr23 in A.pisum.The results showed that the homologous Ors from A.pisum,Aphis glycines and Aphis gossypii share 94.28% identity in amino acid sequences.Moreover,conserved motifs were analyzed using the annotated homologous Or23 from eight aphid species,providing further proof of the high conservation level of the Or23 clade.According to the tissue expression pattern analysis,ApisOr23 was mainly expressed in the antennae.Further functional study using a heterologous Xenopus expression system revealed that ApisOr23 was tuned to five plant volatiles,namely trans-2-hexen-1-al,cis-2-hexen-1-ol,1-heptanol,4’-ethylacetophenone,and hexyl acetate.Among them,trans-2-hexen-1-al,which is one of the main volatile organic compounds released from legume plants,activated the highest response of ApisOr23.Our findings suggest that the conserved Or23 clade in most aphid species might play an important role in host plant detection.

Nicotinic Acetylcholine Receptor Gene Family of the Pea Aphid,Acyrthosiphon pisum

The nicotinic acetylcholine receptors （nAchRs） are cholinergic receptors that form ligand-gated ion channels by ifve subunits in insect and vertebrate nervous systems. The insect nAChR is the molecular target of a class of insecticides, neonicotinoids. Here, we identiifed and cloned 11 candidate nAChR subunit genes in Acyrthosiphon pisum using genome-based bioinformatics combined modern molecular techniques. Most A. pisum nAChRs including α1, α2, α3, α4, α6, α8, and β1 show highly sequence identities with the counterparts of other insects examined. Expression proifles analysis showed that all subunit genes were expressed in adult head. At least two subunits have alternative splicing that obviously increase A. pisum nicotinic receptor diversity. This study will be invaluable for exploring the molecular mechanisms of neonicotinoid-like insecticides in sucking pests, and for ultimately establishing the screening platform of novel insecticides.

Plant phenolics mediated bottom-up effects of elevated CO2 on Acyrthosiphon pisum and its parasitoid Aphidius avenae

Elevated concentrations of atmospheric CO2 can alter plant secondary metabolites,which play important roles in the interactions among plants,herbivorous insects and natural enemies.However,few studies have examined the cascading effects of host plant secondary metabolites on tri-trophic interactions under elevated CO2(eCO2).In this study,we determined the effects of eCO2 on the growth and foliar phenolics of Medicago truncatula and the cascading effects on two color genotypes oiAcyrthosiphon pisum(pink vs.green)and their parasitoid Aphidius avenae in the field open-top chambers.Our results showed that eCO2 increased photosynthetic rate,nodule number,yield and the total phenolic content of M.truncatula.eCO2 had contrasting effects on two genotypes of A.pisum;the green genotype demonstrated increased population abundance,fecundity,growth and feeding efficiency,while the pink genotype showed decreased fitness and these were closely associated with the foliar genstein content.Furthermore,eCO2 decreased the parasitic rate of A.avenae independent of aphid genotypes.eCO2 prolonged the emergence time and reduced the emergence rate and percentage of females when associated with the green genotype,but little difference,except for increased percentage of females,was observed in A.avenae under eCO2 when associated with the pink genotype,indicating that parasitoids can perceive and discriminate the qualities of aphid hosts.We concluded that eCO2 altered plant phenolics and thus the performance of aphids and parasitoids.Our results indicate that plant phenolics vary by different abiotic and biotic stimuli and could potentially deliver the cascading effects of eCO2 to the higher trophic levels.Our results also suggest that the green genotype is expected to perform better in future eCO2 because of decreased plant resistance after its infestation and decreased parasitic rate.

Cannibalism in the pea aphid, Acyrthosiphon pisum

Previous observations of cannibalism have been made in the aphid Acyrthosiphon pisum （L.）： this article seeks to quantify factors contributing to such be- haviors. We observed and quantified the responses of a number of clones and life stages to varying levels of starvation, in the form of increasingly desiccated Vicafaba L. plants （receiving 50, 25, or 10 mL every second day） or a complete absence of host plant. We found that, while the longest incidences of cannibalism are carried out by juveniles （F = 3.45, P = 0.019, df = 3） and targeted at adults, the starvation treatments had the most significant effect on the prevalence of cannibalism in mature A. pisum （F ---- 2.24, P = 0.025, df = 9）. Furthermore, there was no difference between the prevalence or dura- tion of cannibalistic activities within and between different clones （P 〉 0.05 in all cases）, though juveniles were more likely to target unrelated aphids （V = 6 112, P = 0.011）, and spent more time feeding on aphids from the same culture （V = 6 062, P = 0.018）.

Hosting certain facultative symbionts modulates the phenoloxidase activity and immune response of the pea aphid Acyrthosiphon pisum

The pea aphid Acyrthosiphon pisum hosts different facultative symbionts(FS)which provide it with various benefits,such as tolerance to heat or protection against natural enemies(e.g.,fungi,parasitoid wasps).Here,we investigated whether and how the presence of certain FS could affect phenoloxidase(PO)activity,a key component of insect innate immunity,under normal and stressed conditions.For this,we used clones of A.pisum of difTerent genetic backgrounds(LLOl,YR2 and T3-8V1)lacking FS or harboring one or two(Regiella insecticola,Hamiltonella defensa,Serratia symbiotica Rickettsiella viridis).Gene expression and proteomics analyses of the aphid hemolymph indicated that the two A.pisum POs,PPOl and PP02,are expressed and translated into proteins.The level of PPO genes expression as well as the amount of PPO proteins and phenoloxidase activity in the hemolymph depended on both the aphid genotype and FS species.In particular,H.defensa and R.insecticola,but not S.symbiotica-h R.viridis,caused a sharp decrease in PO activity by interfering with both transcription and translation.The microinjection of different types of stressors(yeast,Escherichia coli,latex beads)in the YR2 lines hosting different symbionts affected the survival rate of aphids and,in most cases,also decreased the expression of PPO genes after 24 h.The amount and activity of PPO proteins varied according to the type of FS and stressor,without clear corresponding changes in gene expression.These data demonstrate that the presence of certain FS influences an important component of pea aphid immunity.

Downregulation of NADPH-cytochrome P450 reductase via RNA interference increases the susceptibility of Acyrthosiphon pisum to desiccation and insecticides

Nicotinamide adenine dinucleotide phosphate(NADPH)-cytochrome P450 reductase(CPR)is involved in the metabolism of endogenous and exogenous substances,and detoxification of insecticides.RNA interference(RNAi)of CPR in certain insects causes developmental defects and enhanced susceptibility to insecticides.However,the CPR of Acyrthosiphon pisum has not been characterized,and its function is still not understood.In this study,we investigated the biochemical functions of A.pisum CPR(ApCPR).ApCPR was found to be transcribed in all developmental stages and was abundant in the embryo stage,and in the gut,head,and abdominal cuticle.After optimizing the dose and silencing duration of RNAi for downregulating ApCPR,we found that ApCPR suppression resulted in a significant decrease in the production of cuticular and internal hydrocarbon contents,and of cuticular waxy coatings.Deficiency in cuticular hydrocarbons(CHCs)decreased the survival rate of A.pisum under desiccation stress and increased its susceptibility to contact insecticides.Moreover,desiccation stress induced a significant increase in ApCPR mRNA levels.We further confirmed that ApCPR participates in CHC production.These results indicate that ApCPR modulates CHC production,desiccation tolerance,and insecticide susceptibility in A.pisum,and presents a novel target for pest control.

使用不同营养液的琼脂法对豌豆蚜(Acyrthosiphon pisum)和蚕豆叶生物学特性的影响

豌豆蚜不仅是重要的作物害虫,也是研究生物进化机制的理想材料。本研究使用豌豆蚜及其寄主蚕豆作为试验材料,对琼脂法效果进行评价。分别选择花宝、德沃多及明斯特三种营养液作为琼脂培养基基质,对蚕豆叶进行培养,结果发现使用花宝营养液的培养基对叶片生长促进效果最好。无论加入哪一种营养液,琼脂法饲养的豌豆蚜和用蚕豆苗饲养的相比,在寿命、发育时间、成虫尺寸以及繁殖力上没有显著性差异。因此,琼脂法可用于豌豆蚜的饲养实验。

microRNA miR-92a-1-p5导入蚜虫条件筛选

微小RNA(microRNA,miRNA)在蚜虫发育过程中具有重要调控作用,近年来利用miRNA作为靶标进行害虫防治逐渐受到人们的重视,但miRNA导入蚜虫的方式有很大局限。为探索miRNA导入蚜虫的最适条件,以豌豆蚜(Acyrthosiphon pisum)为研究对象,探究显微注射、饲喂、纳米系统递送三种方式对microRNA miR-92a-1-p5的导入效果;同时将不同浓度的miRNA模拟物或抑制剂通过纳米递送系统导入蚜虫体内,定量PCR(Quantitative PCR,qRT-PCR)筛选miRNA导入蚜虫的最佳浓度。结果发现,蚜虫体壁薄且体液多,显微注射方式会导致内容物流出过多而死亡,因此显微注射方式不适于蚜虫miRNA的导入。使用豌豆苗幼嫩组织吸收miRNA抑制剂后再饲喂蚜虫,发现处理48 h后miR-92a-1-p5表达量下降45.3%,其靶标基因flightin表达量上升65.6%,呈显著负调控(P<0.01),表明该方式适合miRNA在蚜虫中的有效导入。使用纳米材料包裹miRNA模拟物或抑制剂后在蚜虫背板点滴,可实现miRNA在蚜虫中的有效过表达或干涉,且最适浓度为160 ng/μL。综上所述,植物吸收miRNA后饲喂蚜虫的方式和纳米递送系统介导miRNA导入的方式,均能实现miRNA在豌豆蚜中的有效导入,纳米递送系统操作更简单,效率更高。研究为miRNA导入蚜虫方式提供了参考,也为miRNA用于害虫防治提供了新的思路。

克隆间相互作用对豌豆蚜性投资策略的影响

为探究克隆间相互作用对豌豆蚜性别分化的影响。本研究使用3个豌豆蚜克隆(MS克隆,PS克隆,Y克隆)作为研究对象。首先选用琼脂法,在低温短日照条件下诱导性母后,分别制作1头区、2头区和混合区,调查各试验区性母的日产蚜量、后代性比和性母的保幼激素3的滴度。结果显示:在MS克隆的1头区,雌雄后代比约为1∶1,当初始性母数增加或与非我克隆共存时,后代的性雌蚜数会增加,雄蚜数减少。PS克隆与MS克隆共存时,相较于1头区,PS克隆后代性雌蚜和雄蚜数均减少,胎生蚜数却显著增加,而2头区的后代性别分化与1头区相比未出现明显差异。Y克隆各处理间性分化未出现差异。性母保幼激素3的滴度与雄蚜数量呈负相关,与胎生蚜数量呈正相关。本研究结果表明,豌豆蚜性母可以根据周边克隆的类型和密度调整后代性别比,以优化其生态适应性和基因传播效率。

温度对豌豆蚜体型、生长发育及繁殖的影响

【目的】明确不同温度对豌豆蚜体型、生长发育及繁殖的影响以及三者之间的关系。【方法】采用离体植物叶片饲养法,观察并记录不同温度(15、20、25℃)处理后豌豆蚜的体型、生长发育及繁殖指标。【结果】随着温度的升高,豌豆蚜的体型逐渐减小,单位体质量的表面积逐渐增大;发育历期和寿命逐渐缩短,平均每雌产蚜量先增后减。在低温(15℃)处理下,豌豆蚜体长(4.10 mm)和后足胫节长度(3.07 mm)最长,表面积(4.74 mm2)最大,体质量(3.11 mg)最大;若蚜发育历期(12.44 d)和寿命(43 d)最长;平均每雌产蚜量(75.45头)最少。【结论】温度对豌豆蚜体型、生长发育及繁殖有显著影响。

抗、感紫花苜蓿品种对豌豆蚜游离氨基酸的影响

昆虫无法合成其生长发育过程中全部的氨基酸,必须从食物中或其他途径获取,而植物韧皮部氨基酸被认为是蚜虫生产性能的关键限制因素。为明确抗蚜紫花苜蓿品种对豌豆蚜(Acyrthosiphon pisum)游离氨基酸含量的影响,本研究通过液相-质谱联用仪测定了豌豆蚜取食抗、感紫花苜蓿(Medicago sativa)品种(抗蚜品种‘甘农5号’和感蚜品种‘猎人河’)后游离氨基酸的含量及供试植物材料游离氨基酸的含量。结果表明:‘甘农5号’色氨酸含量显著高于‘猎人河’(P<0.05),差异倍数为2.25;豌豆蚜取食‘甘农5号’后天冬氨酸的含量显著高于豌豆蚜取食‘猎人河’后的含量(P<0.05),差异倍数为1.48;豌豆蚜取食‘甘农5号’后脯氨酸、甘氨酸、组氨酸和总氨基酸的含量显著低于豌豆蚜取食‘猎人河’后的含量(P<0.05),差异倍数分别为0.31、0.81、0.61和0.86。说明抗蚜紫花苜蓿品种‘甘农5号’可导致豌豆蚜的游离氨基酸含量发生变化,且可通过影响豌豆蚜的脯氨酸和总氨基酸含量来影响豌豆蚜的生存和发展。研究结果可为豌豆蚜的防治及优质抗蚜苜蓿种质资源的筛选提供一定的理论基础和依据。

单宁酸对豌豆蚜谷胱甘肽-S-转移酶活性与基因表达的影响

本研究通过测定单宁酸(2 g·L^(-1))处理豌豆蚜(Acyrthosiphon pisum) 48 h后体内谷胱甘肽-S-转移酶(GST)活性以及不同组织GST基因转录水平的变化,以明确单宁酸对GST活性以及基因表达的影响。结果表明:豌豆蚜取食单宁酸(2 g·L^(-1)) 48 h后,GST活性下降。相比不处理对照,经单宁酸处理后,豌豆蚜头部有7个GST基因上调表达,其中ApGST104、ApGSTX1上调表达3倍左右;胸部有10个GST基因上调表达,其中ApGSTD6上调表达6.4倍;腹部有10个GST基因上调表达,其中ApGST101、ApGST105上调5倍左右;中肠有9个GST基因上调表达,其中ApPGST105上调表达3.2倍。从结果可以看出,单宁酸对豌豆蚜GST基因的表达产生了影响,部分GST基因显著上调表达(P <0.05),表明GST基因可能在豌豆蚜对单宁酸的代谢中发挥重要的作用。

豌豆蚜几丁质脱乙酰酶(ApCDAs)的鉴定及表达特性

通过BLAST比对和软件分析,共筛选出4个豌豆蚜(Acyrthosiphon pisum)几丁质脱乙酰基因( ApCDA1、 ApCDA2、 ApCDA3和 ApCDA5),并分析了其生物学信息;通过实时荧光定量PCR技术,发现4个ApCDAs在各发育阶段均有表达,其中, ApCDA1基因在1龄、2龄若虫和成虫期表达量较高;ApCDA2基因在4龄若虫的表达量高于其他龄期;ApCDA3基因在各发育阶段后期的表达量显著高于前期和中期,2龄若虫后期表达量最高;ApCDA5基因在3龄若虫的表达量偏高,2龄后期的表达量最高;此外, ApCDA1和 ApCDA3在3龄若虫和成虫中肠、胚胎和表皮内的表达量均显著高于 ApCDA2和 ApCDA5。结果表明,ApCDAs基因对豌豆蚜的生长发育和蜕皮具有重要作用。

不同苜蓿品种对豌豆蚜的生化抗性机制

采用紫外分光光度法和高锰酸钾法测定了不同抗蚜性苜蓿(Medicago sativa L.)品种受豌豆蚜(Acyrthosi-phon pisum Harris)为害胁迫后叶片内叶绿素(Chl)、可溶性蛋白、总酚含量及防御性酶多酚氧化酶(PPO)和过氧化氢酶(CAT)活性的动态变化,以期明确各项生理指标与抗虫性之间的关系。结果表明:在蚜虫刺吸诱导过程中,4个品种的PPO均呈先下降后上升的趋势,其中接蚜前抗虫品种甘农5号(G5)PPO活性高于感虫品种猎人河(Hu)和低抗品种甘农3号(G3)、金皇后(JH),接蚜后迅速下降,其活性低于感虫品种;抗虫品种甘农5号CAT活性和总酚含量始终高于低抗品种和感虫品种;感虫品种(Hu)Chl含量高于低抗品种(G3,JH),但低于抗虫品种(G5);感虫品种和抗虫品种的可溶性蛋白含量低于低抗品种(除第3 d高于G3);4个品种的CAT活性、Chl含量、可溶性蛋白含量均呈下降趋势。因此,苜蓿品种的Chl、可溶性蛋白、PPO与其对豌豆蚜抗性的相关性不明确,而总酚、CAT与抗蚜性呈正相关。

温度对3种蚜虫生长发育及繁殖的影响

在不同温度条件下，对豆蚜、豌豆蚜、豌豆修尾蚜3种蚜虫发育历期、产仔量、寿命的影响进行了比较试验，结果显示，豆蚜发育起点为（6．05±1．44）℃，有效积温为（106．63±9．19）日度；豌豆蚜发育起点为（5．69±1．72）℃，有效积温（113．01±2．98）日度；豌豆修尾蚜发育起点为（4．02±2．22）℃，有效积温为（131．45±29．84）日度，3种蚜虫最适发育温度为19～23℃，在19℃时产仔量最多，其中以豌豆蚜的繁殖能力最强，达69．5头。

豌豆蚜刺吸胁迫对不同苜蓿品种体内单宁含量及生理活性的影响

通过对甘农5号(G5)、甘农3号(G3)、金皇后(JH)和猎人河(Hu)4种不同抗蚜苜蓿(Medicago sativa L.)品种受豌豆蚜(Acyrthosiphon pisum)胁迫后其叶片内丙二醛(MDA)和单宁含量及防御性酶(超氧化物歧化酶(SOD)和过氧化物酶(POD))活性的动态变化研究,以期明确各项生理指标与抗虫性之间的关系。结果表明:在蚜虫刺吸诱导过程中,抗虫品种(G5)的MDA含量低于低抗品种(G3)和感虫品种(JH),抗虫品种和感虫品种的单宁含量高于低抗品种,感虫品种的SOD和POD活性低于抗虫品种和低抗品种,且所有品种的SOD和POD活性均表现先上升后下降的趋势,而MDA和单宁含量变化无规律。因此,MDA,SOD和POD活性的变化与苜蓿的抗蚜性密切相关,可作为苜蓿抗蚜性生理指标,而单宁与苜蓿抗蚜性的关系有待进一步研究。

紫外线(UV-B)辐射对不同色型豌豆蚜生物学特性的影响

为了明确紫外线(UV-B)辐射对红色型和绿色型豌豆蚜生物学特性的影响,本研究将2种不同色型豌豆蚜的初生若蚜经过40 W UV-B波段紫外线每日照射30 min,在3种温度梯度(16℃、20℃、24℃)和2种苜蓿品种"甘农3号"和"甘农5号"条件下,在人工气候箱中单头饲养,测定各个处理豌豆蚜的发育历期、体质量差和相对日均体质量增长率等生物学参数。结果显示:在"甘农3号"上,16℃时,在UV-B辐射对2种色型豌豆蚜的发育历期、体质量差和日均体质量增长率均无显著影响(P>0.05);在20℃时,UV-B辐射下红色型豌豆蚜的发育历期显著延长(P<0.05),相对日均体质量增长率也显著减少(P<0.05),体质量差无显著变化(P>0.05);而在24℃时,UV-B辐射下绿色型豌豆蚜的发育历期显著延长(P<0.05),体质量差和相对日均体质量增长率也显著减少(P<0.05)。在"甘农5号"上,在16℃时,UV-B辐射下红色型豌豆蚜的发育历期显著延长(P<0.05),体质量差和相对日均体质量增长率也显著减少(P<0.05);在20℃和24℃时,UV-B辐射绿色型豌豆蚜的发育历期显著延长(P<0.05),体质量差和相对日均体质量增长率也显著减少(P<0.05)。由此可知,UV-B辐射对豌豆蚜的影响与温度和苜蓿品种均密切相关。

不同龄期龟纹瓢虫对豌豆蚜的捕食功能反应(英文)

为了解龟纹瓢虫(Propylaea japonica)控制豌豆蚜(Acyrthosiphon pisum)的能力,在实验室内采用圆盘法测定了不同龄期龟纹瓢虫对豌豆蚜的捕食功能反应,以期掌握龟纹瓢虫控制豌豆蚜的能力。结果表明:龟纹瓢虫4个龄期的幼虫和雌雄成虫捕食豌豆蚜的数量与豌豆蚜密度呈负加速曲线关系,符合Honing-Ⅱ型功能反应模型。龟纹瓢虫雌成虫的日捕食量最大,其次是第4龄幼虫和雄虫。模型预测了龟纹瓢虫1,2,3,4龄幼虫及雄、雌成虫对豌豆蚜的日最大捕食量分别是6.5,20.4,32.3,71.4,58.8,80.0头。综上所述,龟纹瓢虫对豌豆蚜有较强的控制能力。

豌豆品种对绿色型豌豆蚜种群参数的影响

在（23±1）℃、光照时间16 h、相对湿度70%~80%人工气候箱条件下,研究了＂草豌豆＂、＂定豌1号＂、＂定豌2号＂、＂G1997＂4个豌豆品种对绿色型豌豆蚜种群变化的影响,旨在为种植豌豆时品种的选择提供理论依据。结果表明,在不同豌豆品种上绿色型豌豆蚜的各虫态发育历期和单雌一生最高产仔量均有显著差异,其在＂G1997＂上完成一生所需时间最长（17.92 d）,在＂草豌豆＂上最短（12.69 d）;其最高产仔量在＂G1997＂上最多,为117头.头1,在＂草豌豆＂上最少,为60头·头^-1。存活曲线均为Ⅰ型,存活率高低依次为＂G1997＂、＂定豌2号＂、＂定豌1号＂和＂草豌豆＂;净增值率＂定豌2号＂、＂定豌1号＂、＂G1997＂、＂草豌豆＂相应分别为40.569 2、37.952 4、31.607 8、25.000 0;内禀增长率在＂定豌1号＂上最大,为0.275 8,而在＂G1997＂上最小,为0.188 6;种群加倍时间依次为＂G1997＂（3.675 0 d）、＂定豌2号＂（2.867 6 d）、＂草豌豆＂（2.729 8 d）和＂定豌1号＂（2.513 1 d）;＂定豌1号＂是其最喜食的品种,其次为＂定豌2号＂、＂草豌豆＂,最后是＂G1997＂。

不同紫外辐射时间对2种色型豌豆蚜后代生物学特性的影响

通过研究不同紫外(UV-B)辐射时间对2种色型豌豆蚜(Acyrthosiphon piusm)后代生物学特性的影响,以期明确其对紫外胁迫的适生性。将2种不同体色的豌豆蚜成蚜经过40W紫外辐射1,2,4,6,8,10h后,单头饲养在甘农3号(G3)和甘农5号(G5)紫花苜蓿(Medicago sativa)上,最终获得各处理F2代豌豆蚜的发育历期、体重差及相对日均体重增长率等生物学参数。结果表明:短时间辐射下(1,2h),在G3上红色型豌豆蚜F2代的生长发育显著加快,但相对日均体质量增长率无显著变化,绿色型则均无显著变化,在G5上2种体色型豌豆蚜F2代均无显著变化;长时间辐射处理下(10h),2种色型豌豆蚜的生长发育均显著延缓,在同一苜蓿品种上,绿色型豌豆蚜延缓比例均大于红色型;紫外辐射对2种色型豌豆蚜F2代的生长发育延缓比例在G5上均大于G3上。紫外辐射对2种色型豌豆蚜生长发育的影响是可遗传的,在G3上,短时间紫外辐射能够促进红色型豌豆蚜的生长发育;在G3和G5上,长时间紫外辐射均能抑制2种体色型豌豆蚜的生长发育,且绿色型比红色型敏感,表明紫外胁迫对豌豆蚜的影响与苜蓿品种存在一定的相关性。