不同抗、感水稻品种对褐飞虱肠道菌群的影响

本研究旨在探究取食不同抗性水稻品种对褐飞虱肠道菌群多样性及丰度的影响。将生长一致的3龄褐飞虱若虫分别置于高抗水稻品种RHT、高感水稻品种TN1以及中等抗性水稻品种ZH11,取食1 d和3 d后,分别对褐飞虱肠道进行取样,提取总DNA并通过HiSeq 2500平台对肠道细菌16S rRNA-V4区进行测序。对测序结果进行分析,统计不同样本中肠道微生物操作分类单元(operational taxonomic unit,OTU)数量,并在不同等级的分类阶元上统计细菌组成、丰度及Alpha多样性。对取食3种不同抗性水稻品种的褐飞虱肠道菌群特有及共有OTUs进行统计,并对丰度较高及显著差异菌群进行统计分析。褐飞虱每个肠道样本获得70000余条有效序列,根据序列相似性聚类成一定数目的OTUs。褐飞虱分别取食RHT、TN1、ZH11水稻1 d后的样本中,共有的OTUs数目为213个,特有的OTUs数目分别为424、77和130个。取食3 d后的样本中,共有的OTUs数目为217个,特有的OTUs数目分别为140、162和63个。对不同菌群含量进行分析发现,不动杆菌属Acinetobacter及沃尔巴克氏体属Wolbachia是含量较高的两类优势菌,其中不动杆菌属在取食RHT的褐飞虱肠道中的含量低于取食TN1及ZH11的褐飞虱肠道中的含量。同时,对319个属的细菌物种在分别取食RHT,TN1和ZH11的褐飞虱样本中的含量进行分析,发现了8类差异显著的物种。褐飞虱能够通过改变肠道细菌组成响应不同抗性水稻品种。研究结果为进一步挖掘褐飞虱体内肠道菌群在响应水稻抗性过程以及开发基于微生物资源进行褐飞虱防控提供参考。     

褐飞虱基因BphMIF1克隆及表达分析

【目的】克隆水稻重要害虫褐飞虱Nilaparvatalugens唾液蛋白基因BphMIF1,探析BphMIF1在响应褐飞虱取食过程中的表达谱。【方法】采用RT-PCR法克隆了褐飞虱唾液蛋白基因BphMIF1,测序后对序列进行生物信息学分析,使用实时荧光定量PCR(qPCR)对褐飞虱1-5龄若虫及成虫以及不同成虫虫体部位BphMIF1的表达量进行分析,同时对BphMIF1进行了原核表达分析。【结果】克隆得到BphMIF1基因,编码119个氨基酸。qPCR结果表明BphMIF1基因在若虫4龄期表达会迅速上调,在成虫的头、胸、腹均有表达,以腹部表达量最高。原核表达结果显示褐飞虱BphMIF1基因以0.5mmol?L-1的IPTG作为诱导浓度,诱导时间为4h表达效果较好。【结论】BphMIF1基因在褐飞虱成虫头、胸、腹部均有表达,在若虫不同发育历期其表达量有所差异且在4龄若虫时期表达量有显著上调。该结果可为BphMIF1在褐飞虱取食过程中的功能研究奠定基础。     

褐飞虱Nl15基因的克隆及功能分析

【目的】植食性刺吸式口器昆虫的唾液蛋白参与调控植物抗虫防御反应,影响其对寄主植物的适应性。本研究旨在通过克隆褐飞虱Nilaparvata lugens重要唾液蛋白基因Nl15,调查其时空表达模式,明确其在褐飞虱致害性中的作用。【方法】基于褐飞虱IR56种群转录组数据,用RT-PCR克隆褐飞虱基因Nl15 cDNA序列,并进行生物信息学分析。利用qPCR检测其在褐飞虱TN1和IR56种群不同发育阶段(卵、1-5龄若虫和雌雄成虫)和雌成虫不同组织(头、胸、腹和足)中的表达模式。通过显微注射dsRNA对褐飞虱TN1和IR56种群的4龄若虫进行Nl15的RNAi,利用qPCR检测Nl15 RNAi后褐飞虱若虫中Nl15的相对表达量以及Nl15 RNAi后褐飞虱若虫取食3 d时水稻植株中防御相关基因(OsLecRK4, OsMPK10, OsWRKY24, OsLox, OsNPR1和OsGns5)的相对表达量,并生物测定Nl15 RNAi后褐飞虱的存活率以及成虫蜜露量和体质量增量。【结果】克隆了褐飞虱Nl15 cDNA序列(GenBank登录号：OK181113),其开放阅读框长1 008 bp;预测编码335个氨基酸,理论等电点为7.54,分子量为38.7 kD,含有23个氨基酸的信号肽序列和一个糖基化修饰位点,不存在跨膜结构域和其他已知的功能域;Nl15与灰飞虱Laodelphax striatellus同源蛋白氨基酸序列一致性为45%。发育表达谱结果表明,Nl15在褐飞虱各个发育阶段均表达,在3-4龄若虫中的表达量最高;组织表达谱结果表明,Nl15在褐飞虱雌成虫头部中的表达量最高,且在IR56种群头部中的表达量高于在TN1种群头部中的。RNAi实验结果表明,与注射dsGFP的对照组相比,注射dsNl15的处理组中Nl15的表达量显著降低了89.5%,褐飞虱的存活率以及成虫蜜露量和体质量增量均显著降低,上述6个水稻防御相关基因的表达量显著上调。【结论】褐飞虱IR56种群中的Nl15参与褐飞虱与水稻的防御与反防御分子互作。本研究为进一步阐述褐飞虱克服抗虫基因的机制及揭示昆虫与植物互作的分子网络提供了思路。     

硫激肽及其受体调控褐飞虱取食行为

【目的】明确硫激肽(sulfakinin, SK)及硫激肽受体(sulfakinin receptor, SKR)在褐飞虱Nilaparvata lugens取食行为中的作用。【方法】PCR克隆褐飞虱硫激肽基因Nlsk及其受体基因Nlskr cDNA全长序列并进行生物信息学分析；利用qRT-PCR检测Nlsk及Nlskr在褐飞虱不同发育阶段(卵、1-5龄若虫、雄成虫和雌成虫)和雌成虫不同组织(头、触角、翅、口针、足、肠道和马氏管)中的表达量；褐飞虱3龄若虫注射dsNlskr进行基因沉默，qRT-PCR检测4龄若虫中Nlskr的表达量，测定4龄若虫的取食量；基于已构建的Nlskr RNAi后的4龄若虫转录组数据库进行差异表达基因(differentially expressed genes, DEGs)的GO和KEGG分析以及取食相关基因的qRT-PCR验证。【结果】PCR克隆得到了褐飞虱Nlsk(GenBank登录号：AB817281)及Nlskr(GenBank登录号：BAO01059.1)的cDNA全长序列。序列比对结果显示，褐飞虱NlSK成熟肽具有与其他物种保守的C端FMRFam...     

褐飞虱取食诱导的MAPK3基因在水稻叶鞘组织中的定位

利用Northern杂交技术,对促分裂原活化蛋白激酶基因（MAPK3,BPHiw103）进行了表达分析,同时,针对抗虫水稻B5植株接种褐飞虱若虫48h后的叶鞘组织切片进行了原位定位。Northern杂交结果表明,在褐飞虱取食后,MAPK3 mRNA整体表现为上调的特性。原位杂交显示,褐飞虱取食前,MAPK3在水稻叶的薄壁组织中大量表达;而取食后,在韧皮部表达明显增加,在薄壁组织表达则呈下降趋势。这一点在叶心组织切片中表现最为明显。这些结果说明,水稻在受褐飞虱若虫取食诱导和刺激后,MAPK3的表达在受伤部位急剧增加,推测MAPK3基因可能在水稻对褐飞虱的抗性反应中发挥作用。     

利用抑制差减杂交技术分离受水稻抗性调控的褐飞虱基因

为分离受水稻抗性调控的褐飞虱Nilaparvata lugens基因, 以取食感虫水稻台中1号和高抗水稻B5的2叶1芯秧苗24 h的褐飞虱4龄若虫为起始材料, 采用抑制差减杂交技术构建了两个群体间的正反向差减cDNA文库。通过斑点杂交从差减文库中筛选代表受水稻抗性调控的基因的cDNA克隆, 进行测序和功能分析, 挑选具功能的基因进行Northern杂交验证。结果表明, 通过斑点杂交筛选到的98个阳性克隆代表92个互不重复的单基因, 其中25个与动物的已知蛋白基因存在较高的同源性。Northern杂交表明, 这25个基因有11个表达上调, 8个表达下调, 提示它们可能在褐飞虱适应抗性水稻过程中发挥了重要作用。本研究结果为克隆上述新基因的全长cDNA序列及进一步研究其在褐飞虱与水稻互作中的功能奠定了基础。     

一个水稻OsWNK基因的分离及表达分析

在褐飞虱取食后的水稻cDNA差减文库中筛选到与拟南芥AtWNK1激酶基因高度同源的EST(GenBank登录号:BU572310),以该EST为探针,从褐飞虱取食后的水稻cDNA文库中分离到OsWNK基因的全长cDNA,该基因编码一个含677个氨基酸残基的蛋白激酶,与以前克隆出的一种拟南芥蛋白激酶基因(GenBank登录号:DQ837532)只有3个氨基酸残基的差异。Northern杂交结果显示,在褐飞虱取食后,该基因的表达上升。表明该激酶基因参与褐飞虱取食的应答反应,可能与水稻抗褐飞虱有关.     

RNAi和取食不同品种水稻后白背飞虱多铜氧化酶4基因的表达差异及生物学效应

【目的】分析RNAi及取食不同品种水稻后白背飞虱Sogatella furcifera多铜氧化酶4(multicopper oxidase 4, MCO4)基因的表达差异和生物学效应,以期为该基因的功能研究提供理论依据。【方法】通过生物信息学技术方法分析白背飞虱MCO4基因的核苷酸和氨基酸序列;利用RNAi技术沉默白背飞虱3龄若虫的MCO4基因,检测显微注射法和饲喂法的沉默效率,研究该基因被干扰后对白背飞虱3龄若虫存活率的影响;白背飞虱成虫取食不同抗性水稻品种24 h后,采用RT-qPCR检测其体内MCO4基因表达量的变化,并统计其体重。【结果】白背飞虱MCO4基因的核苷酸序列全长为2 166 bp,编码721个氨基酸。显微注射法进行MCO4基因的RNAi可成功沉默白背飞虱的MCO4基因,且沉默效率远高于饲喂法。MCO4基因被RNAi沉默后白背飞虱3龄若虫存活率显著低于正常若虫的。与取食水稻感虫品种TN1相比,取食水稻抗虫品种IR26的成虫MCO4基因表达量显著增加,且成虫体重显著降低。【结论】显微注射法可以更好地干扰白背飞虱MC04基因的表达。沉默MCO4基因对白背飞虱3龄若虫的存活率有显著影响,我们推测MCO4基因在白背飞虱取食水稻中具有重要的作用。     

褐飞虱表皮蛋白基因NlICP的克隆及功能研究

表皮蛋白与几丁质结合构成抵御外界不良环境的昆虫角质层, 在昆虫的生长发育及蜕皮硬化中具有重要的作用。为了探讨表皮蛋白基因在褐飞虱Nilaparvata lugens生长发育中的功能, 本研究根据褐飞虱转录组测序信息, 对其中1个预测为编码表皮蛋白的Unigene36450序列进行了克隆, 并应用荧光定量PCR和RNA干扰（RNAi）技术分别对该基因的表达规律和功能进行了研究。结果表明： 克隆的 Unigene36450全长cDNA开放阅读框长585 bp, 编码的蛋白含194个氨基酸, 具有典型的表皮蛋白R&R保守结构域, 命名为NlICP。转录水平的时序表达分析发现, NlICP仅在褐飞虱若虫期表达, 且在3龄若虫体内表达量最高, 提示该基因编码的蛋白属于幼虫表皮蛋白。RNA干扰结果显示, 取食dsNlICP的1龄末2龄初（孵化后第3 天）若虫在干扰6 d和8 d时, NlICP基因的表达量分别较取食dsGFP的对照组下降58.8%和45.6%, 差异极显著(P<0.01); 干扰后部分褐飞虱若虫因蜕皮不完全死亡, 干扰5 d的存活率较对照下降26.7%。本研究结果提示, NlICP与褐飞虱若虫的生长发育及蜕皮相关, 可以作为褐飞虱防治的潜在靶标基因。     

水稻OsLecRK1基因介导的抗褐飞虱功能分析

褐飞虱Nilaparvata lugens St(a)l是对水稻最具破坏性的害虫之一,OsLecRK1是水稻Bph3基因簇中对褐飞虱抗性贡献最大的基因.本文对RHTd(含Bph3)等材料进行了褐飞虱抗性评价,克隆并构建了OsLecRK1过量表达突变体水稻,利用该突变体分析了OsLecRK1基因对褐飞虱若虫存活率、若虫发育历期等生物学参数的影响.结果 表明,含Bph3基因水稻RHTd对褐飞虱的抗性明显地强于含Bph1基因水稻Mudgo和bph2基因水稻ASD7,RHTd水稻的褐飞虱受害指数仅为Mudgo和ASD7水稻的53.5％和24.1％.过量表达OsLecRK1基因能显著地增加水稻对褐飞虱的驱避性和抗生性,褐飞虱雌成虫偏好于在野生型水稻上产卵;突变体水稻上的褐飞虱若虫存活率显著地降低,仅为野生型水稻上若虫存活率的75.2％ ～81.8％,且若虫发育历期显著地延长,羽化率和初羽化雌成虫体重均显著地降低;此外,褐飞虱在突变体水稻上取食分泌的蜜露量只有野生型上的40.3％ ～ 60.9％,褐飞虱单雌产卵量只为野生型51％ ～61.2％,卵孵化率只有野生型的52.2％～56.7％,均显著地减少.结果 表明,含Bph3基因水稻RHTd对褐飞虱的抗性明显地高于分别含Bph1、bph2的水稻Mudgo和ASD7;水稻Bph3基因座的OsLecRK1单个基因过量表达即可显著增加水稻对褐飞虱的抗性,OsLecRK1协同影响褐飞虱的多个生物学参数降低褐飞虱的适合度.     

Metabolic imidacloprid resistance in the brown planthopper,Nilaparvata lugens,relies on multiple P450 enzymes

Target insensitivity contributing to imidacloprid resistance in Nilaparvata lugens has been reported to occur either through point mutations or quantitative change in nicotinic acetylcholine receptors (nAChRs). However, the metabolic resistance, especially the enhanced detoxification by P450 enzymes, is the major mechanism in fields. From one field-originated N. lugens population, an imidacloprid resistant strain G25 and a susceptible counterpart S25 were obtained to analyze putative roles of P450s in imidacloprid resistance. Compared to S25, over-expression of twelve P450 genes was observed in G25, with ratios above 5.0-fold for CYP6AY1, CYP6ER1, CYP6CS1, CYP6CW1, CYP4CE1 and CYP425B1. RNAi against these genes in vivo and recombinant tests on the corresponding proteins in vitro revealed that four P450s, CYP6AY1, CYP6ER1, CYP4CE1 and CYP6CW1, played important roles in imidacloprid resistance. The importance of the four P450s was not equal at different stages of resistance development based on their over-expression levels, among which CYP6ER1 was important at all stages, and that the others might only contribute at certain stages. The results indicated that, to completely reflect roles of P450s in insecticide resistances, their over-expression in resistant individuals, expression changes at the stages of resistance development, and catalytic activities against insecticides should be considered. In this study, multiple P450s, CYP6AY1, CYP6ER1, CYP4CE1 and CYP6CW1, have proven to be important in imidacloprid resistance.     

绿盲蝽P450基因的克隆及增效醚对P450酶活性的抑制作用

为探讨P450介导的绿盲蝽Apolygus lucorum(Meyer-Dür)抗药性机制,合理使用杀虫药剂,本研究通过活体和离体抑制实验发现,增效醚(PBO)对绿盲蝽P450酶活性有显著的抑制作用:在处理时长为24h时,P450酶活性由未处理时的12.02pmol/min/mgPro.下降至1.63pmol/min/mgPro.,PBO对P450酶的抑制中浓度为0.256mmol/L。生物测定结果表明,PBO对三氟氯氰菊酯具有显著增效作用,增效7.2倍,而对吡虫啉、灭多威、马拉硫磷无显著增效作用。利用RT-PCR及RACE技术对绿盲蝽P450基因进行克隆,获得了2条CYP4家族基因,全长均为1631bp,含有完整的开放阅读框,编码501个氨基酸;序列比对表明这是一对等位基因,含有CYP4家族所有保守特征序列;同源性比较及系统发育分析显示这2个基因编码的氨基酸序列与褐飞虱Nilaparvata lugens CYP4CE1亲缘关系最近,同源性分别为41.5%和41.1%。     

Cloning of CYP9G2 from the diamondback moth, Plutella xylostella (Lepidoptera: Yponomeutidae).

Cytochrome P450s constitute a superfamily of hemoproteins, important in the metabolism of endogenous and xenobiotic compounds. The full-length cDNA of a novel cytochrome P450, CYP9G2, was isolated from a cDNA library. The cDNA is 2143 bp in length and contains an open reading frame from 50 to 1615 bp, encoding a protein of 521 amino acid residues. The putative P450 protein contains a highly hydrophobic N terminus and a P450 protein signature motif, FG/S*G*R*C*G***A/G, known as the important ligand for heme binding, analysis of the NH2-terminal sequence indicated that CYP9G2 is a microsomal P450. Using polymerase chain reaction with primers specific to CYP9G2, the genomic structure of CYP9G2 was analyzed, and it was found that the gene contains seven introns and eight exons within the coding region, all the sequences of the exon-intron junctions are consistent with the AG-GT rule. Multiple alignment indicated that CYP9G2 is most similar to CYP9E2 from the Blattella germanica (42.7% identity), it is also similar to the insect P450s in family 9, including CYP9L1 from Anopheles gambiae (38.7%) and CYP9A1 from Heliothis virescens (39.5%).     

Over-expression of cytochrome P450 CYP6CM1 is associated with high resistance to imidacloprid in the B and Q biotypes of Bemisia tabaci (Hemiptera: Aleyrodidae)

The two most damaging biotypes of Bemisia tabaci, B and Q, have both evolved strong resistance to the neonicotinoid insecticide imidacloprid. The major mechanism in all samples investigated so far appeared to be enhanced detoxification by cytochrome P450s monooxygenases (P450s). In this study, a polymerase chain reaction (PCR) technology using degenerate primers based on conserved P450 helix I and heme-binding regions was employed to identify P450 cDNA sequences in B. tabaci that might be involved in imidacloprid resistance. Eleven distinct P450 cDNA sequences were isolated and classified as members of the CYP4 or CYP6 families. The mRNA expression levels of all 11 genes were compared by real-time quantitative RT-PCR across nine B and Q field-derived strains of B. tabaci showing strong resistance, moderate resistance or susceptibility to imidacloprid. We found that constitutive over-expression (up to approximately 17-fold) of a single P450 gene, CYP6CM1, was tightly related to imidacloprid resistance in both the B and Q biotypes. Next, we identified three single-nucleotide polymorphic (SNP) markers in the intron region of CYP6CM1 that discriminate between the resistant and susceptible Q-biotype CYP6CM1 alleles (r-Q and s-Q, respectively), and used a heterogeneous strain to test for association between r-Q and resistance. While survivors of a low imidacloprid dose carried both the r-Q and s-Q alleles, approximately 95% of the survivors of a high imidacloprid dose carried only the r-Q allele. Together with previous evidence, the results reported here identify enhanced activity of P450s as the major mechanism of imidacloprid resistance in B. tabaci, and the CYP6CM1 gene as a leading target for DNA-based screening for resistance to imidacloprid and possibly other neonicotinoids in field populations.     

褐飞虱细胞色素P450基因CYP4C62的原核表达及多克隆抗体的制备

【目的】细胞色素P450单加氧酶在昆虫生长发育和适应环境过程中发挥着重要功能。【方法】本研究克隆了褐飞虱Nilaparvata lugens细胞色素P450基因CYP4C62的开放阅读框（不含信号肽编码序列部分）,在大肠杆菌Escherichia coli中实现了高效表达,经Ni-NTA琼脂糖凝胶亲和层析柱纯化得到了重组的CYP4C62蛋白。将该蛋白免疫日本大耳白兔Oryctolagus cuniculus雄兔,制备了兔抗CYP4C62血清抗体。采用间接ELISA方法检测了血清抗体的效价;并通过Western印迹杂交检测了该抗体的免疫学特异性。【结果】结果表明,通过大肠杆菌表达出的CYP4C62蛋白相对分子量为56 kD。间接ELISA法检测表明,制备的兔抗CYP4C62抗体的效价达到1∶100 000。Western印迹杂交证实,该抗体既可与异源表达的CYP4C62蛋白特异性结合,也可以与褐飞虱总蛋白中内源的CYP4C62特异性结合,表明具有较好的免疫反应特异性。【结论】CYP4C62多克隆抗体的成功制备,为后续分析CYP4C62在褐飞虱各组织中的时空表达水平,并通过免疫组织化学法定位分析该蛋白的组织、细胞及亚细胞分布规律,及最终解析CYP4C62的生物学功能奠定了基础。     

Cloning of three A-type cytochromes P450, CYP71E1, CYP98, and CYP99 from Sorghum bicolor (L.) Moench by a PCR approach and identification by expression in Escherichia coli of CYP71E1 as a multifunctional cytochrome P450 in the biosynthesis of the cyanogenic glucoside dhurrin

A cDNA encoding the multifunctional cytochrome P450, CYP71E1, involved in the biosynthesis of the cyanogenic glucoside dhurrin from Sorghum bicolor (L.) Moench was isolated. A PCR approach based on three consensus sequences of A-type cytochromes P450 – (V/I)KEX(L/F)R, FXPERF, and PFGXGRRXCXG – was applied. Three novel cytochromes P450 (CYP71E1, CYP98, and CYP99) in addition to a PCR fragment encoding sorghum cinnamic acid 4-hydroxylase were obtained.Reconstitution experiments with recombinant CYP71E1 heterologously expressed in Escherichia coli and sorghum NADPH–cytochrome P450–reductase in L--dilaurylphosphatidyl choline micelles identified CYP71E1 as the cytochrome P450 that catalyses the conversion of p-hydroxyphenylacetaldoxime to p-hydroxymandelonitrile in dhurrin biosynthesis. In accordance to the proposed pathway for dhurrin biosynthesis CYP71E1 catalyses the dehydration of the oxime to the corresponding nitrile, followed by a C-hydroxylation of the nitrile to produce p-hydroxymandelonitrile. In vivo administration of oxime to E. coli cells results in the accumulation of the nitrile, which indicates that the flavodoxin/flavodoxin reductase system in E. coli is only able to support CYP71E1 in the dehydration reaction, and not in the subsequent C-hydroxylation reaction.CYP79 catalyses the conversion of tyrosine to p-hydroxyphenylacetaldoxime, the first committed step in the biosynthesis of the cyanogenic glucoside dhurrin. Reconstitution of both CYP79 and CYP71E1 in combination with sorghum NADPH-cytochrome P450–reductase resulted in the conversion of tyrosine to p-hydroxymandelonitrile, i.e. the membranous part of the biosynthetic pathway of the cyanogenic glucoside dhurrin. Isolation of the cDNA for CYP71E1 together with the previously isolated cDNA for CYP79 provide important tools necessary for tissue-specific regulation of cyanogenic glucoside levels in plants to optimize food safety and pest resistance.