竹笋基夜蛾的求偶及交配行为

在光周期14 L:10 D、温度(25±1)℃、相对湿度(60±10)％的室内条件下,研究了竹笋基夜蛾的求偶、交配行为,以及雄蛾对雌蛾腺体提取物的EAG反应.结果表明:竹笋基夜蛾求偶及交配行为仅发生在暗期.雌蛾羽化当天便可求偶,第2日雌蛾求偶率达最高;雌蛾进入暗期0～4h后开始求偶,5～7h求偶率达最高,暗期结束前1～2.5h终止;求偶的起始时间随着日龄的增加逐渐提前,1～4日龄雌蛾求偶的次数及持续时间随着日龄的增加而上升,5日龄则下降;雌蛾求偶高峰及停止求偶的时间随日龄的增加逐渐提前.成虫羽化当日便可交配,第2日达到交配高峰,5日后停止交配;雌蛾进入暗期5.5～7.0 h达到交配高峰,交配高峰出现的时间随日龄的增加而提前;随日龄的增加,交配起始时间逐渐提前,而交配持续时间逐渐缩短;增大雌雄比,竹笋基夜蛾交配起始时间提前,交配持续时间缩短,交配率显著提高.竹笋基夜蛾雄虫对2日龄处于求偶期雌虫的性腺体粗提物有显著的EAG反应.     

甜菜夜蛾雌蛾求偶行为及性信息素产生的时间节律(英文)

研究了甜菜夜蛾雌蛾求偶行为和腺体中性信息素滴度时日变化的规律。结果表明 ,雌蛾求偶行为和性信息素滴度均呈明显的昼夜节律 ,且均在暗期的中后期达到高峰。比较而言 ,雌蛾的求偶活动期较短 ,在暗期中期开始 ,暗期结束后很快停止 ;但峰期较长 ,从中后期达到高峰后一直保持到暗期结束。而腺体内 4种性信息素组份从暗期前 0 .5h到下一个光期 4.5h均有产生 ;但峰期很短 ,暗期 6.5h显著增加达到高峰后 ,在 8.5h又迅速回落。日变化研究表明 ,甜菜夜蛾当日龄即可求偶 ,3日龄起进入求偶盛期 ,至 7日龄末有明显减退。 0～ 3日龄雌蛾的平均初始求偶时间逐日显著提前 ,以后则稳定在暗期 5h左右。不同日龄间性信息素滴度的变化较小     

豆野螟成虫行为学特征及性信息素产生与释放节律

豆野螟Maruca vitrata (Fabricius)是一种严重的泛热带豆类蔬菜害虫。本文在（29±1）℃、相对湿度75%～80%、光周期14L∶10D条件下研究了豆野螟成虫的羽化、交尾行为以及雌蛾性信息素的释放节律。结果表明：其羽化行为全天可见,在雌蛾中,86%于暗期羽化; 在雄蛾中,73%于暗期羽化。雌雄蛾羽化行为在暗期第4、5和8 h差异达到显著 (t>4; P<0.05)。交尾活动发生在暗期19：00到5：00之间,交尾持续时间最短约为20 min,最长约为90 min,3日龄进入暗期第5 h具有最高的交尾率。1、6和7日龄成虫具有单个交尾高峰,2到5日龄成虫具有两个交尾高峰。同一日龄成虫交尾在暗期前半段平均花费的时间要明显高于在后半段花费的时间。低龄和高龄的成虫用于交尾的时间明显高于中龄的性成熟成虫。成虫的开始交尾时间随着日龄的增加逐渐前移。雄蛾对进入暗期后第5 h和第9 h处女雌蛾的性腺提取物和空气收集性信息素的触角电位反应最强,对 3日龄处女雌蛾的性腺提取物和空气收集性信息素的触角电位反应最强。处女雌蛾田间诱蛾试验表明：23：00-01：00为诱蛾高峰期,3日龄处女雌蛾的诱蛾效果最好。该蛾的羽化、交尾及性信息素产生与释放均存在节律上的一致性。雌蛾的性信息素释放的时间较长,见于整个暗期,然而交尾行为发生时间较短,主要发生于两个交尾高峰之间。     

六星黑点豹蠹蛾求偶行为与性信息素产生和释放的时辰节律

六星黑点豹蠹蛾Zeuzera leuconotum Butler(Lepidoptera:Cossidae)是一种重要的园林害虫。为研究利用其性信息素防控六星黑点豹蠹蛾,在光周期L∶D=14∶10、温度19—32℃、相对湿度75%—85%条件下,对雌蛾求偶行为进行了观察;采用腺体提取法和瓶内收集法分别制备了不同日龄在同一时辰、同日龄在不同时辰的雌蛾性信息素粗提物,然后测定雄蛾触角对各种性信息素提取物的触角电位反应;以雄蛾对腺体提取物的EAG值表示性信息素的产生量,对瓶内收集物的EAG值表示释放量,检测性信息素产生与释放的时辰节律。结果表明:雌蛾求偶均发生在暗期;雌蛾求偶率与日龄有关,其中2日龄雌蛾求偶率最高,平均为86.7%;不同日龄雌蛾求偶高峰期均在进入暗期4—6h期间;随着虫龄的增加,求偶高峰期前移。雌蛾羽化当晚体内即可产生性信息素,并且向体外释放,但量较少;2日龄雌蛾产生和释放的性信息素量最大;雌蛾腺体中性信息素含量从进入暗期后逐渐增加,在暗期5h含量最高,随后逐渐减少;雌蛾释放性信息素从暗期4h开始,至暗期6h释放量最大。通过林间处女雌蛾诱捕试验证明了六星黑点豹蠹蛾的求偶行为与性信息素产生和释放在时辰节律上具有一致性。     

烟夜蛾雄蛾性附腺因子对雌蛾性信 息素合成的抑制作用

烟夜蛾Helicoverpa assulta处女蛾在交配后1 h,其性信息素滴度即显著降低,72 h内未见恢复。生测结果表明,烟夜蛾性信息素合成抑制因子主要来源于雄蛾性附腺。不同日龄雄蛾性附腺提取物的抑制活性无显著差异。光暗期对其活性具显著影响,暗期中雄蛾的性附腺物质对雌蛾性信息素合成具有较强抑制作用,而光期中雄蛾的性附腺物质不具抑制活性。在暗期的不同时间处理,对处女蛾性信息素合成的抑制作用无显著差异。雄蛾性附腺提取物对雌蛾性信息素合成的抑制作用与注射剂量有明显的相关性,0.2 ME（雄蛾当量）是产生显著抑制作用的最小剂量。对交配雌蛾注射性信息素生物合成激活神经肽（PBAN）提取物后,其性信息素合成又可恢复,这说明雌蛾交配后,性信息素滴度降低的原因是由于缺少了PBAN的调控。     

褛裳夜蛾的交配行为及雄蛾对性腺提取物的反应节律

详细观察了褛裳夜蛾成虫的交配行为,利用风洞、触角电位技术研究了雄蛾对性腺提取物的反应节律,通过林间诱蛾试验进行了验证,旨在为褛裳夜蛾性信息素的精确提取及性信息素组份分离、鉴定提供依据。研究结果表明:成虫的求偶、交配行为均发生在暗期,有一定的节律性:雌蛾在羽化3d以后开始求偶,1周左右表现最为强烈,3-4日龄雌蛾在暗期4-6h开始求偶,最大求偶率在暗期6-8h;5-9日龄在进入暗期就开始求偶,最大求偶率出现在暗期4-6h。风洞试验表明,3-7日龄的雄蛾对性腺提取物均有明显的性行为反应,5日龄雄蛾在暗期4-6h对性腺提取物的反应最为强烈。3-6日龄的成虫在暗期4-6h开始交配,而7-8日龄的成虫于暗期2-4h开始交配,6日龄的成虫交配率最高,交配高峰在暗期4-8h。雄蛾对性腺提取物的触角电位反应也有一定的节律性:雄蛾对4日龄雌蛾性腺提取物开始有电生理反应,对6-7日龄暗期5h性腺提取物反应最为强烈。林间诱蛾试验测定了性腺提取物的引诱活性,7日龄雌蛾性腺提取物林间诱蛾量最高,引诱高峰在暗期4-6h,该结果也验证了褛裳夜蛾雄蛾对性腺提取物的反应节律。     

甜菜夜蛾肽聚糖识别蛋白基因SePGRP-SA的克隆及功能鉴定

【目的】本研究旨在阐明甜菜夜蛾Spodoptera exigua幼虫体内肽聚糖识别蛋白(peptidoglycan recognition protein, PGRP)在响应苏云金芽胞杆菌Bacillus thuringiensis(Bt)感染过程中的功能。【方法】利用PCR方法扩增甜菜夜蛾幼虫肽聚糖识别蛋白基因SePGRP-SA全长cDNA;采用qRT-PCR分析SePGRP-SA在甜菜夜蛾不同发育阶段(卵、1-5龄幼虫、预蛹和蛹)及4龄幼虫不同组织(中肠、马氏管、围食膜、脂肪体、血淋巴和表皮)中的表达。通过RNAi技术沉默SePGRP-SA基因72 h后,qRT-PCR检测SePGRP-SA沉默效率及甜菜夜蛾4龄幼虫中肠抗菌肽相关基因(Ceropin, Attacin和Defensin)和细菌载量的变化。RNAi沉默SePGRP-SA 24 h后,以苏云金芽胞杆菌菌株Bt-GS57饲喂甜菜夜蛾4龄幼虫0, 24, 48, 72, 96和120 h,计算幼虫校正死亡率;饲喂甜菜夜蛾4龄幼虫Bt-GS57后0, 24, 48和72 h,利用qRT-PCR检测中肠SePGRP-SA, Ceropin, Attacin和Defensin的相对表达量。【结果】克隆获得甜菜夜蛾SePGRP-SA全长DNA(GenBank登录号：MW265930),开放阅读框长576 bp,编码191个氨基酸,其编码蛋白的预测分子量为21.59 kD。序列分析结果表明,SePGRP-SA具有典型的PGRP和Ami2保守结构域,信号肽为19个氨基酸,为分泌型蛋白;系统进化分析发现,SePGRP-SA与斜纹夜蛾Spodoptera litura的SlPGRP亲缘关系最近,氨基酸序列一致性达91.1%。发育表达谱结果表明SePGRP-SA在甜菜夜蛾4和5龄幼虫、预蛹和蛹中高表达;组织表达谱结果表明,SePGRP-SA在4龄幼虫各组织中均表达,其中以血淋巴中表达量最高。与注射dsEGFP(对照)相比,注射dsSePGRP-SA的甜菜夜蛾4龄幼虫在72 h时中肠SePGRP-SA基因表达量下调了95.26%,Cecropin, Attacin和Defensin表达量显著下调,中肠细菌载量显著升高。注射dsEGFP和dsSePGRP-SA的甜菜夜蛾4龄幼虫饲喂Bt-GS57,72 h时幼虫校正死亡率分别为50.00%和73.33%,表明幼虫对Bt-GS57的敏感性明显增加。甜菜夜蛾4龄幼虫取食Bt-GS57后,中肠SePGRP-SA, Cecropin, Attacin和Defensin表达量在48 h均显著增加,72 h时降低。【结论】Bt侵染能够引起甜菜夜蛾SePGRP SA基因激活抗菌肽相关基因Cecropin, Attacin和Defensin的表达。     

甜菜夜蛾过氧化氢酶cDNA序列克隆、 序列分析和表达特征

过氧化氢酶 (catalase, CAT)作为生物体内的重要物质, 其主要功能是参与活性氧代谢过程, 在清除H₂O₂、 超氧自由基和过氧化物以及阻止羟基自由基形成等方面发挥着重要作用。本研究利用RT-PCR技术和RACE方法首次克隆和分析了甜菜夜蛾Spodoptera exigua （Hübner）CAT基因, 命名为SexiCAT, GenBank登录号为JN051294, 其cNDA序列全长为1 755 bp, 开放阅读框长1 524 bp, 推测编码507个氨基酸。经氨基酸序列比对, 此多肽序列具有高度保守性, 与其他昆虫CAT的序列一致性分别为： 家蚕Bombyx mori （87%）、 黑腹果蝇Drosophila melanogaster （73%）、 埃及伊蚊Aedes aegypti （71%）和赤拟谷盗Tribolium castaneum （70%）。对该基因在甜菜夜蛾各个发育时期以及不同组织表达量的荧光定量PCR分析表明, SexiCAT基因在甜菜夜蛾各个发育阶段的表达水平存在显著差异, 其中成虫期的表达量最高, 是卵期表达量的7倍, 幼虫期次之, 卵期最低; SexiCAT基因在5龄幼虫体壁、 中肠、 脂肪体和马氏管组织中都有表达, 但在脂肪体中表达量最高。甜菜夜蛾SexiCAT基因的成功克隆及同源建模将为今后对其功能研究以及作为靶标设计新型氧化酶抑制剂提供了基础。     

笋秀夜蛾的求偶及交配行为

笋秀夜蛾(Apamea apameoides)是我国南方地区最为重要的笋期害虫,了解其求偶和交配行为是性信息素分离鉴定和应用的关键之一。在室内条件下,对笋秀夜蛾的性比、寿命和求偶、交配行为进行了研究。结果表明:笋秀夜蛾雌雄性比为1∶0.76;雌蛾和雄蛾的平均寿命因交配缩短;笋秀夜蛾的求偶和交配行为仅发生在暗期,日龄对其求偶和交配行为影响显著。雌蛾羽化当天便可求偶,第2日雌蛾求偶率达最高,求偶的起始时间随着日龄的增加逐渐提前。成虫羽化当日便可交配,第3日达到交配高峰;随日龄的增加,开始交配的时间逐渐提前,日龄对成虫交配高峰出现的时间影响不显著。     

四种鳞翅目害虫精氨酸激酶基因的表达谱及基于RNAi的功能分析

【目的】精氨酸激酶(arginine kinase, AK)(EC 2.7.3.3)是昆虫体内重要的磷酸原激酶(能量代谢调节因子),也是唯一能够形成有效ATP的磷酰基供体,起着与脊椎动物中肌酸激酶相同的作用。本研究旨在了解鳞翅目害虫AK基因的表达和功能。【方法】利用qRT-PCR方法测定AK基因在大螟Sesamia inferens、二化螟Chilo suppressalis、甜菜夜蛾Spodoptera exigua和斜纹夜蛾Spodoptera litura 这4种鳞翅目害虫不同发育阶段和3龄幼虫不同组织中的表达谱;通过终点法检测了这4种害虫不同发育阶段和幼虫不同组织中的AK酶活性;采用RNAi技术抑制该基因的表达并分析其功能。【结果】AK基因在大螟、二化螟、甜菜夜蛾和斜纹夜蛾这4种鳞翅目昆虫的不同发育阶段和3龄幼虫不同组织中均有表达,说明该基因的表达不具有发育时期和组织特异性。不同发育时期和3龄幼虫不同组织中AK酶活性与基因表达量变化趋势大体一致。注射以AK基因为靶标的dsRNA 6 d后,4种害虫体内AK基因的mRNA表达下降30%~50%,AK酶活性降低30%左右;14 d后幼虫的死亡率达50%左右,显著高于对照组幼虫的死亡率。【结论】AK基因在上述4种鳞翅目害虫中为组成型表达,RNAi抑制AK基因的表达可导致4种害虫的幼虫死亡,研究结果为开发以AK基因为靶标的鳞翅目害虫防治新技术提供了理论依据。     

家蚕滞育激素-性信息素合成激活肽基因表达的调节

滞育激素和性信息素合成激活肽是两个重要的昆虫神经肽,这两个神经肽由一个基因编码．利用分子杂交和ＲＴ－ＰＣＲ技术,确定了滞育激素－性信息素合成激活肽基因表达的调节不属于转录后的调节,推定为翻译后形成一个大的前体多肽再剪接为几个成熟的神经肽分子．     

Cloning and expression of the cDNA encoding the FXPRL family of peptides and a functional analysis of their effect on breaking pupal diapause in Helicoverpa armigera

Diapause hormone (DH) and pheromone biosynthesis activating neuropeptide (PBAN) are encoded by a single mRNA in the suboesophegeal ganglion (SG) and are responsible for induction of embryonic diapause in Bombyx mori and sex pheromone biosynthesis in lepidopteran insects. PBAN cDNA analyses revealed that the DH-like peptide is present in several species that have a pupal diapause. However, the function of the DH-like peptide remains unknown. In the present study, we cloned the cDNA encoding DH-PBAN in Helicoverpa armigera utilizing the rapid amplification of the cDNA ends method. The nucleotide se quence analysis revealed that the longest open reading frame of this cDNA encodes a 194-amino acid precursor protein that con tains a 33-aa PBAN, a 24-aa DH-like peptide, and three other neuropeptides, all of which have a common C-terminal pentapeptide motif FXPR/KL ( X=G, T, S). A homology search showed that H. armigera DH-like and PBAN are highly homologous to those from other insects. Northern blot analysis demonstrated a single message RNA corresponding to the size of Har-DH-PBAN cDNA from pupal SG with significantly higher expression in the SG of nondiapause pupae than diapausing pupae. Western blot analysis showed DH-like peptide expression from SG of both males and females. When DH-like peptide was injected into nondiapause larvae and pupae, it did not induce diapause, but rather efficiently broke pupal diapause in H. armigera. The ED(50) of DH to terminate pupal diapause is 20 pmol/pupae. The other four FXPRLamide neuropeptides from the DH-PBAN polyprotein precursor have cross activity for diapause termination. These observations therefore suggest a potential role for these FXPRL family peptides in promoting continuous development in several noctuid species. The high expression of this gene in pharate adults and adults indicates that the FXPRL family peptides may have multiple physiological functions.     

Physiological differentiation of DH-PBAN-producing neurosecretory cells in the silkworm embryo

Embryonic diapause of the silkworm, Bombyx mori, is induced by a neuropeptide hormone, the diapause hormone (DH), which is secreted from a limited number of neurosecretory cells in the subesophageal ganglion (SG) at the maternal generation. We examined the developmental fate of the hormone-producing cell (DH-pheromone biosynthesis activating neuropeptide [PBAN]-producing cell) in the embryonic stage at the level of gene expression and cell biology. The DH-PBAN gene expression started at the histogenesis stage and gradually increased toward hatching. DH is an amidated peptide belonging to FXPRLamide family. The immunoreactive somata against anti FXPRLamide antiserum were found in the SG from blastokinesis. Immunoreactive neural processes with varicosites were also found on the corpus cardiacum and the corpus allatum. The implantation of a part of a developing embryo including the SG into the pupae with the SG removed induced diapause eggs in the progeny. These results were obtained from eggs incubated under diapause-averting conditions as well as diapause-inducing conditions. Thus, a neurosecretory system responsible for biosynthesis of FXPRLamide neuropeptides is established as early as histogenesis, although the system to regulate the secretion of neuropeptide hormones has not been fully formed by that time.     

PBAN gene architecture and expression in the fire ant, solenopsis invicta

The PBAN/pyrokinin peptides are a major neuropeptide family characterized by a common FXPRLamide at the C-termini. These peptides are distributed ubiquitously in the Insecta and are involved in many essential endocrine functions, e.g. pheromone production. We report the gene architecture of the fire ant Solenopsis invicta PBAN (Soi-PBAN) gene, including the exon and intron boundaries. Furthermore, we quantified expression of the Soi-PBAN mRNA in the head, thorax and abdomen of the fire ant. The Soi-PBAN gene is comprised three exons and two introns, all composed of 13,358 nucleotides, which is 2-4 times larger than lepidopteran PBAN genes. The overall pattern of the PBAN immunoreactive neuron number and localization was similar for female and male alates, inseminated female delates, workers and queens. The Soi-PBAN mRNA expression level was highest in the head, followed by the thorax, and abdomen of adult ants. Expression in the abdominal tissues was expected to be similar to the head, or at least higher than thorax because strong PBAN immunoreactive neurons were detected previously in brain-subesophageal and abdominal ganglia. This result suggests that another FXPRL gene could be dominant in the abdomen rather than Soi-PBAN gene.     

烟实夜蛾性信息素合成激活肽基因的分子克隆

根据家蚕Bombyx mori和玉米夜蛾Helicoverpa zea的性信息素合成激活肽基因序列,设计若干套引物, 以烟实夜蛾Heliothis assulta基因组DNA为模板进行PCR扩增, 得到0.63 kb的特异性DNA片段。该片段克隆进适当载体,序列测定和同源比较, 查明烟实夜蛾的基因组中存在性信息素合成激活肽基因。烟实夜蛾的性信息素合成激活肽由33个氨基酸组成, C末端是FXPRL结构,是目前发现的第4种昆虫性信息素合成激活肽。在该神经肽第14和第15个氨基酸之间, 插入一个0.42 kb的内含子。 进一步的分析证明了烟实夜蛾的性信息素合成激活肽基因在潜成虫期的食道下神经节中表达。     

Effect of the brain and suboesophageal ganglion on pupal development in Helicoverpa armigera through regulation of FXPRLamide neuropeptides

Recent studies in Helicoverpa armigera report a novel role for diapause hormone (DH), pheromone biosynthesis activating neuropeptide (PBAN) and three other FXPRLamide neuropeptides secreted from suboesophageal ganglion (SG) in terminating pupal diapause. In the present paper, we investigated the role of these five FXPRLamide family neuropeptides on pupal development. Although removal of SG could not make nondiapause-destined pupae enter diapause-like status, it did make them eclose approximately 0.6-1.2 days later when compared with the controls. The results of competitive ELISAs showed a high level of FXPRLamide titer in the hemolymph of the SG-removed pupae and this may be due to the expression of the DH-PBAN gene in tissues other than SG. DH-PBAN mRNA and peptides were also detected in the thoracic ganglia (TGs) by RT-PCR and immunocytochemistry. The expression of DH-PBAN gene in the TGs of the SG-removed pupae is significantly higher than that in normal pupae by quantitative PCR and immunocytochemistry. Decerebration experiments proved that the decerebrated pupae could enter diapause-like status through down-regulation of FXPRLamide titer in hemolymph. Our studies confirm that the brain plays an important role in the determination of pupal development by regulating the synthesis and release of FXPRLamide neuropeptides in H. armigera. Thus, the function of FXPRLamide peptides in H. armigera is closely correlated with pupal development.