大麦黄矮病毒GPV株系ORF4基因在大肠杆菌中的表达及特异抗血清的制备

 根据已报道的大麦黄矮病毒GPV株系(BYDV-GPV)相关基因序列设计合成引物,利用RT-PCR方法获得ORF4基因,并将其克隆到原核表达载体pET-5a中。经IPTG诱导、SDS-PAGE分析,结果表明:ORF4基因在大肠杆菌BL21(DE3) pLysS中获得了高效表达,分子量为17 kDa。以回收的表达产物为抗原免疫家兔,制备了BYDV-GPV 17kDa蛋白的特异性抗血清。Western blot检测结果,制备的抗血清可用于检测BYDV-GPV侵染后在燕麦体内表达的17 kDa蛋白。     

大麦黄矮病毒PAV血清型免疫电镜检测

用免疫电镜技术对大麦黄矮病毒PAV 血清型进行了检测。病毒粗提液经过抗体IgG 的诱捕、修饰后,在电镜下观察到病毒粒体。病毒在抗体的诱捕下,产生了明显的聚集效应。单个病毒粒体周围有抗体环,病毒二聚集体之间有抗体桥存在。病毒粒体表面结构清晰,而且能够清楚地看到抗体分子与病毒表面突起的结合     

大麦黄矮病毒-GAV在燕麦植株体内运动规律的初步研究

 利用RT-PCR方法研究了大麦黄矮病毒-GAV在燕麦植株内的移动规律。先将介体麦二叉蚜(Schizaphis graminum)在BYDV-GAV新鲜病叶上饲毒,再将获毒蚜虫放置到二叶期的健康燕麦植株接种48h,随后分期提取接种植株的第1~6片叶和根组织的总RNA,利用特异引物扩增BYDV-GAV的外壳蛋白(CP)基因以检测病毒在燕麦植株内的复制和移动。结果表明,在接种5d后,接种叶片(第2片叶)呈现阳性,接种7d后,植株新生的第4片叶被侵染,接种9d后,部分的第3片叶呈现阳性,至接种16d,几乎所有的叶片均呈现阳性。仅在接种的第5、7和9d收集的根组织呈现阳性,而所有的第1片叶均为阴性,可能是由于这些组织内病毒含量太低所致。本研究初步揭示了BYDV-GAV长距离运动的规律并且发现该病毒在燕麦根部从接种到系统发病都没有进行大量增殖,为今后进一步研究病毒运动机制选取适当的植物材料提供了基本信息。     

6种病毒抑制剂对西藏青稞上大麦黄矮病的防治效果

通过田间小区试验,开展了6种病毒抑制剂对西藏青稞上大麦黄矮病防治效果的研究.采用带毒蚜虫人工接种法,于青稞起身拔节期每株接种10～15头带毒麦长管蚜,7 d后灭蚜,灭蚜后3d喷施病毒抑制剂,在成株期出现黄矮病症状后调查病株率、病情指数、防治效果,以及长势和产量.结果表明,6种病毒抑制剂对青稞上大麦黄矮病有不同程度的防治...     

大麦黄矮病毒GPV与GAV株系间异源装配现象的初步研究

 以我国麦区的大麦黄矮病毒GPV、GAV株系为材料,利用它们的蚜传特异性,将由禾谷缢管蚜传播的GPV和由麦长管蚜传播的GAV混合侵染到岸黑燕麦上,并进行继代传毒。混合侵染后代蚜传表现型的变化初步表明存在异源装配现象,且表现型混合发生的比例较高。用DAS-ELISA和RT-PCR法对混合侵染后代进行了测定,进一步证明了异源包装现象的存在。部分基因的核苷酸序列分析初步显示所测定的混合侵染后代中没有发生基因重组。     

麦二叉蚜取食两种不同抗性小麦 所引起的基因表达差异

用RT-PCR和cDNA-AFLP方法研究了两个不同抗性水平的小麦品种在不同危害时间后6个特异选择的基因和全部基因的差异表达.结果表明,在感蚜品种千斤早中,48 hLOX表达最充分,而在抗蚜品种ASTRON中,LOX基因在72 h时才表达最强.AOS基因在感蚜品种千斤早中与LOX表达一致,48 h表达最强,在抗蚜品种ASTRON中,AOS基因持续表达.PDF1.2基因在抗蚜品种ASTRON中持续表达,但在感蚜品种千斤早中仅在48 h有较强的表达.PAL基因在不同时间段内都无明显表达差异.PR-1基因在抗蚜品种ASTRON中,在72、96 h诱导表达,而在感蚜品种千斤早中不表达.BGL2基因在抗蚜品种ASTRON中,48 h后有较强的表达,而在感蚜品种千斤早中也无明显表达.通过cDNA-AFLP分析,进一步验证了不同危害时间、不同品种间的基因差异.从这些差异的基因中分离了10个基因并对其序列进行了分析,结果表明,蚜虫取食诱导的防卫反应涉及十八烷酸途径和病菌相关蛋白.     

感染大麦黄矮病毒的小麦中vsiRNA特征分析

 RNA沉默是植物中一种保守的抗病毒机制,其以大量病毒来源的小干扰RNA(virus-derived small interfering RNAs,vsiRNAs)的产生为标志,病毒在侵染寄主过程中可通过vsiRNAs靶向寄主转录本以对抗这种防御机制。BYDV-GAV引起的小麦黄矮病导致小麦黄化和矮化症状,对小麦生产构成严重威胁。通过深度测序技术,分析了感染BYDV-GAV的感病小麦品种‘小偃6号’中vsiRNAs的特征,共得到11 384个vsiRNAs,并预测到37 784个寄主靶基因。发现来源于BYDV-GAV基因组的正义和反义链的vsiRNAs的数量分布大致相等,在5’末端具有A和C偏好性,长度主要在21nt~22nt。靶基因的功能分析表明这些靶基因参与了广泛的生物学功能,尤其是在寄主-病原物互作中占的比重最大。选取25个参与寄主-病原互作的抗性相关基因进行定量验证,发现接种BYDV-GAV后有15个明显下调,6个上调,4个微弱下调,表明测序结果和靶基因预测可靠。推测BYDV-GAV可以通过vsiRNAs干扰寄主抗性基因表达和信号转导,从而实现对感病寄主的侵染。研究结果对揭示BYDV-GAV与小麦互作的分子机制具有重要意义。     

应用基因工程创造抗黄矮病毒转基因小麦新种质

应用花粉管通道法和基因枪法将大麦黄矮病毒ＧＰＶ株系外壳蛋白基因导入小麦栽培品种，获得了抗大麦黄矮病毒ＧＰＶ株系的转基因小麦株系（文献检索证明世界上无任何其它抗病毒转基因小麦报道）。转基因植株经ＰＣＲ、Ｓｏｕｔｈｅｒｎ检测，证明ＣＰ基因可稳定遗传到Ｔ３代；经Ｗｅｓｔｅｒｎ测定，证明ＣＰ基因在转基因小麦中已经得到表达；经带毒蚜温室和田间人工接种试验，获得了一些抗病性明显的后代，并得到了ＥＬＩＳＡ验证     

感染大麦黄矮病毒的小麦中vsiRNA特征分析

 RNA沉默是植物中一种保守的抗病毒机制,其以大量病毒来源的小干扰RNA(virus-derived small interfering RNAs,vsiRNAs)的产生为标志,病毒在侵染寄主过程中可通过vsiRNAs靶向寄主转录本以对抗这种防御机制。BYDV-GAV引起的小麦黄矮病导致小麦黄化和矮化症状,对小麦生产构成严重威胁。通过深度测序技术,分析了感染BYDV-GAV的感病小麦品种‘小偃6号’中vsiRNAs的特征,共得到11 384个vsiRNAs,并预测到37 784个寄主靶基因。发现来源于BYDV-GAV基因组的正义和反义链的vsiRNAs的数量分布大致相等,在5’末端具有A和C偏好性,长度主要在21nt~22nt。靶基因的功能分析表明这些靶基因参与了广泛的生物学功能,尤其是在寄主-病原物互作中占的比重最大。选取25个参与寄主-病原互作的抗性相关基因进行定量验证,发现接种BYDV-GAV后有15个明显下调,6个上调,4个微弱下调,表明测序结果和靶基因预测可靠。推测BYDV-GAV可以通过vsiRNAs干扰寄主抗性基因表达和信号转导,从而实现对感病寄主的侵染。研究结果对揭示BYDV-GAV与小麦互作的分子机制具有重要意义。     

应用基因工程创造抗黄矮病毒转基因小麦新种质

应用花粉管通道法和基因枪法将大麦黄矮病毒ＧＰＶ株系外壳蛋白基因导入小麦栽培品种，获得了抗大麦黄矮病毒ＧＰＶ株系的转基因小麦株系（文献检索证明世界上无任何其它抗病毒转基因小麦报道）。转基因植株经ＰＣＲ、Ｓｏｕｔｈｅｒｎ检测，证明ＣＰ基因可稳定遗传到Ｔ３代；经Ｗｅｓｔｅｒｎ测定，证明ＣＰ基因在转基因小麦中已经得到表达；经带毒蚜温室和田间人工接种试验，获得了一些抗病性明显的后代，并得到了ＥＬＩＳＡ验证     

Plant community diversity influences vector behaviour and Barley yellow dwarf virus population structure

The species composition of a plant community can affect the distribution and abundance of other organisms including plant pathogens. The goal of this study was to understand the role of host diversity in the transmission of two Barley yellow dwarf virus (BYDV) species that share insect vectors and hosts. Greenhouse experiments measured the transmission rate of BYDV species PAV and PAS from infected oat plants to healthy agricultural and wild grasses and from these species back to healthy oat seedlings. In the field component of the study, the rate of spread of PAV and PAS was measured in monoculture plots planted with agricultural grasses. In greenhouse experiments, the aphid vector more readily transmitted PAV from agricultural grasses and more readily inoculated PAS to the wild grass species assayed. In the field experiment, disease prevalence was greater in wheat, but there was no difference in the rate of spread of PAV and PAS. These results indicate an interaction between vector and host genotype that selects for greater PAV transmission in grain crops, contributes to differences in disease prevalence between grass types, and maintains pathogen diversity within the larger plant community (i.e. agricultural and non‐agricultural hosts).     

人工饲料条件下大麦黄矮病毒GAV株系对麦长管蚜种群适合度的直接影响

植物病毒与介体蚜虫存在复杂的互作关系。前人关于植物病毒对蚜虫调控作用的研究主要集中在植物病毒通过寄主植物对蚜虫的间接影响上,未见植物病毒对介体蚜虫适合度直接调控的报道。鉴于此,我们以麦长管蚜Sitobion miscanthi (Takahashi)为试虫,以其传播的大麦黄矮病毒-GAV(Barley yellow dwarf virus GAV,BYDV-GAV)为测试病毒,以全纯人工饲料加入BYDV-GAV病毒提取液饲养麦长管蚜4 d,使之在不接触寄主植物条件下获毒,然后分别在全纯人工饲料和无毒小麦叶片上继续饲养,直至死亡。利用生命表技术分析麦长管蚜生长发育和繁殖参数。研究结果表明:在无毒小麦叶片饲养条件下,与未获毒对照麦长管蚜相比,获毒后麦长管蚜生活史参数成虫历期和产仔天数显著降低,繁殖力显著增加;种群参数内禀增长率、净繁殖率、周限增长率显著增加,平均世代周期显著降低。在全纯人工饲料条件下,与未获毒对照相比,获毒后麦长管蚜仅成虫历期和产仔天数显著下降,而其他生活史参数及种群参数均无显著差异。说明BYDV-GAV使得介体麦长管蚜在小麦叶片上的适合度显著提高,这是由麦长管蚜与寄主植物互作引起的,而病毒对介体麦长管蚜的适合度无直接调控作用。     

A comparative study of the Barley yellow dwarf virus species PAV and PAS: distribution,accumulation and host resistance

This study investigated the distribution and characteristics of the Barley yellow dwarf virus (BYDV) species BYDV‐PAS, which was recently separated from BYDV‐PAV, the most commonly studied BYDV species. Throughout 3 years of experimental monitoring of BYDV incidence, PAS was the most frequently occurring species infecting cereals and grasses in the Czech Republic. Furthermore, Rhopalosiphum maidis and Metopolophium dirhodum were recorded as BYDV‐PAS vectors, even though M. dirhodum does not usually transmit BYDV‐PAV. In field experiments with barley and wheat, where virus accumulation, symptoms and effect on the yield were tested, BYDV‐PAV was more severe than PAS. Infection with the BYDV‐PAV isolate resulted in greater expression of symptoms and also in a greater reduction in plant height and grain weight per spike than BYDV‐PAS. In a sensitive cultivar of barley (Graciosa), the amount of viral RNA of BYDV‐PAV was also significantly higher than that of BYDV‐PAS. In a tolerant line (Wbon‐123), however, no such differences were found. In conclusion, although BYDV‐PAS seems to be dominant in the Czech Republic, BYDV‐PAV has the potential to cause more significant crop losses in barley and wheat.     

青海省小麦种质资源对大麦黄矮病毒的抗性鉴定

为明确青海省不同小麦种质资源对大麦黄矮病毒(Barley yellow dwarf virus,BYDV)的抗性差异,于2014—2015年采用堆测法人工接种鉴定了178份种质资源的抗病性。结果显示,不同小麦种质资源对黄矮病的抗性存在较大差异,甘A100、川766、陕1059、兰麦-2的病情指数依次为14.83、23.60、23.99和24.66,表现出较好的抗病性;病情指数在50.00以上的高感品种有69份,包括尕老汉、白板麦、兴热密穗等,其中白板麦病情指数高达72.35,高于感病对照阿勃;其余种质资源病情指数在25.00~50.00之间,表现为感病;甘A101、甘A99、藏515、藏519、木汉麦、群科大白麦、拉胎板麦、小红麦-2和朗县折达25初期表现感病,后期恢复健康,有一定的耐病性;抗病性不同的种质资源感染BYDV后,对小麦产量的影响差异很大,抗病对照中4产量损失8.96%,耐病品种产量损失在13.64%~19.74%之间,高病品种尕老汉产量损失达41.91%,表明小麦种质资源中抗BYDV的品种极少。     

Wheat cultivars and natural-based substances: Impacts on epidemiological parameters of yellow dwarf disease

For many years, control methods against aphid-transmitted barley/cereal yellow dwarf viruses (B/CYDV) in cereal fields were mainly based on the use of neonicotinoid (NNI)-coated seeds. The ban of NNI by the EU in 2018 has reinforced the interest of the scientific community in the characterization of genetic resources and biological protections to find alternatives to chemicals for the management of B/CYDV. Eleven BYDV-susceptible wheat varieties were tested using a set of experimental procedures to evaluate their potential to alter parameters linked to the biology of aphids (Rhopalosiphum padi) and spread of virus (BYDV-PAV). Moreover, two natural-based substances (azadirachtin and mineral oil) were tested for their impact on the ability of aphids to survive, colonize and transmit the virus. Results showed that the 11 genotypes tested have a level of susceptibility to virus infection similar to the susceptible reference cv. Rubisko. However, when characterization focused on virus load, latency period and aphid fecundity, partial resistance phenotypes were observed for some cultivars. Furthermore, azadirachtin increased aphid mortality and decreased aphid fecundity. Thus, in addition to genes described for their ability to limit B/CYDV infections, the genetic backgrounds of B/CYDV-susceptible wheat cultivars and azadirachtin-based treatment should be considered for future management strategies against yellow dwarf disease.