Effect of pokeweed antiviral protein (PAP) on the infection of plant viruses

At a concentration of 0.4 μg purified pokeweed antiviral protein (PAP)/ml, the formation of local lesions on tobacco leaves caused by tobacco mosaic virus infection was completely inhibited and at 25 ng PAP/ ml. 68% inhibition was still obtained. PAP protected plants from infection by viruses from seven virus groups-five RNA viruses: tobacco mosaic virus, cucumber mosaic virus, alfalfa mosaic virus, potato virus X and potato virus Y; and two DNA viruses: African cassava mosaic virus (ssDNA) and cauliflower mosaic virus (dsDNA). Virus infection was probably blocked by PAP at a very early stage. PAP infiltrated into the intercellular spaces through the lower surfaces of leaves inhibited infection by virus inoculated on the upper leaf surface, and partially prevented PVY transmission by aphids. However. PAP did not show any activity against two bacterial and six fungal pathogens.     

转二价核酶基因马铃薯及抗病性研究

 用克隆的特异性切割马铃薯卷叶病毒(Potato leaf roll virus,PLRV)复制酶基因负链RNA的二价核酶基因,构建植物表达载体pROKⅡ/DR,经土壤农杆菌(Agrobacterium tumefaciens)介导叶盘法转化马铃薯外植体,获得再生植株。PCR和Southern-blot检测,证明目的基因已成功地导入马铃薯再生植株,其转化率约为14.5%,并能够在无性繁殖后代植株中稳定存在。RT-PCR检测表明,再生马铃薯植株中的二价核酶基因可以转录表达。经病毒接种的转基因马铃薯株系L5、L7、L8和J-1的无性繁殖后代在继发感染中仍表现出较高的抗病性,为最终获得抗PLRV马铃薯新品系打下了基础。     

马铃薯Y病毒复制酶基因不同位置cDNA区段介导对PVY的不同抗性

为探究靶序列位置对RNA介导的病毒抗性产生的影响,利用聚合酶链式反应(polymerase chain reaction,PCR)技术扩增马铃薯Y病毒(Potato virus Y,PVY)复制酶基因(nuclear inclusion b,NIb)不同位置的cDNA区段,反向插入双元载体pROKII中,构建了发夹RNA(hairpin RNA,hpR-NA)结构的植物表达载体。将构建的植物表达载体采用冻融法转入农杆菌LBA4404,叶盘法转化烟草NC89,获得转基因植株。攻毒试验表明:PVYNIb基因不同位置cDNA区段介导的对PVY的抗性存在显著差异;3′端1/2处和中间位置的序列可介导高水平的病毒抗性,抗性植株的比例在50%以上,而5′端、5′端1/2处和3′端的序列介导的抗性效率较低,抗性植株的比例仅为10%~30%。Northern杂交显示:抗病植株中RNA的积累量明显低于同类型的感病植株,抗性与RNA积累量呈负相关;抗病转基因植株中有siRNA存在,表明病毒抗性是由RNA介导的。     

Robust RNAi-based resistance to mixed infection of three viruses in soybean plants expressing separate short hairpins from a single transgene

Transgenic plants expressing double-stranded RNA (dsRNA) of virus origin have been previously shown to confer resistance to virus infections through the highly conserved RNA-targeting process termed RNA silencing or RNA interference (RNAi). In this study we applied this strategy to soybean plants and achieved robust resistance to multiple viruses with a single dsRNA-expressing transgene. Unlike previous reports that relied on the expression of one long inverted repeat (IR) combining sequences of several viruses, our improved strategy utilized a transgene designed to express several shorter IRs. Each of these short IRs contains highly conserved sequences of one virus, forming dsRNA of less than 150 bp. These short dsRNA stems were interspersed with single-stranded sequences to prevent homologous recombination during the transgene assembly process. Three such short IRs with sequences of unrelated soybean-infecting viruses (Alfalfa mosaic virus, Bean pod mottle virus, and Soybean mosaic virus) were assembled into a single transgene under control of the 35S promoter and terminator of Cauliflower mosaic virus. Three independent transgenic lines were obtained and all of them exhibited strong systemic resistance to the simultaneous infection of the three viruses. These results demonstrate the effectiveness of this very straight forward strategy for engineering RNAi-based virus resistance in a major crop plant. More importantly, our strategy of construct assembly makes it easy to incorporate additional short IRs in the transgene, thus expanding the spectrum of virus resistance. Finally, this strategy could be easily adapted to control virus problems of other crop plants.     

河南省烟草病毒的小RNA测序检测

To identify viruses in Henan tobacco-planting areas, from 2015 to 2017 and 2019, 288 symptomatic tobacco samples were collected and then subjected to small RNA sequencing. Results showed that at least 7 viruses were detected from these samples which including four previously reported viruses, cucumber mosaic virus (CMV), tobacco mosaic virus (TMV), potato virus Y (PVY) and tobacco vein banding mosaic virus (TVBMV). Other three viruses, wild tomato mosaic virus (WTMV), brassica yellows virus (BrYV), and cycas necrotic stunt virus (CNSV) were firstly detected in Henan province. However, tobacco etch virus (TEV) and tobacco ringspot virus (TRSV) were not detected from these samples. In addition, CMV, TMV, PVY, TVBMV, and BrYV were the dominant viruses infecting tobacco in Henan Province.     

利用RNA介导的抗病性获得抗2种病毒的转基因烟草

 RNA介导的病毒抗性(RMVR)是近年发展起来的一种新的植物抗病毒基因工程策略,具有抗病性强、抗性持久、生物安全性高等特点。利用该策略培育多抗病毒植株具有广阔的应用前景和重要的实践意义。本研究将非翻译的马铃薯X病毒的衣壳蛋白(PVX-CP)基因和非翻译的马铃薯Y病毒的衣壳蛋白(PVY-CP)基因组成嵌合基因,构建植物表达载体pROKXY,利用农杆菌介导法转化烟草NC89,获得6株对PVX和PVY的混合侵染表现为免疫的转基因植株。分子分析表明,这种抗性为RNA介导的病毒抗性。这一研究结果为利用RMVR进行植物多抗病毒育种提供了重要数据和资料。     

利用RNA介导的抗病性获得高度抗马铃薯Y病毒的转基因烟草

 以马铃薯Y病毒坏死株系(PVY^N)的RNA为模板,应用反转录-聚合酶链式反应(RT-PCR)方法,扩增出长度为801 bp的非翻译的马铃薯Y病毒外壳蛋白基因。将扩增的片段克隆到pBSK的BamHI和KpnI之间并进行了序列测定。用BamHI和KpnI从重组克隆载体上切下该基因并插入到质粒pROKII内得到植物表达载体pPVYCP。通过根癌农杆菌(LBA4404)介导的方法转化烟草NC89,经卡那霉素抗性筛选、PCR和Southern blot检测,获得82株转基因植株。Northern blot和Western blot分析表明,转基因植株只在RNA水平上得到了表达。抗病性试验表明转基因植株之间抗性水平存在着差异,其中有7株是对PVY^N高度抗病性的植株。转基因植株抗病特异性试验初步表明,对PVY^N表现高度抗病的植株对PVY^O也具有高度抗病性。     

胶体金免疫电镜技术检测和鉴定病汁液中不同形态的植物病毒

 本文报道胶体金免疫电镜技术的建立:铜网捕获病毒后,用其稀释约200倍的同源抗血清修饰处理3~5分钟,羊抗兔IgG-金复合物标记3~5分钟,经磷钨酸负染,电镜下可见病毒粒子周围金颗粒特异性吸附,而背景上非特异性吸附很少。用此技术成功地快速检测和鉴定了病汁液中线状病毒(大麦黄花叶病毒,大麦温和花叶病毒,小麦梭条斑花叶病毒,芜菁花叶病连和马铃薯Y病毒)、棒状病毒(烟草花叶病毒、长叶车前草花叶病毒和土传小麦花叶病毒)以及球状病毒(水稻矮缩病毒、黄瓜花叶病毒和大麦黄矮病毒)。用0.5M PBSpH7.0制备病汁液,可大幅度提高同源抗血清对黄瓜花叶病毒的捕获能力。     

Tissue culture methods for the screening and analysis of putative virus-resistant transgenic potato plants

ABSTRACT Following regeneration, putative virus-resistant transgenic plants are usually transferred from tissue culture to a greenhouse or growth chamber to screen for resistance to infection and disease development using mechanical, graft, or insect vector inoculation methods. To reduce initial screening costs and time, we developed mechanical and graft inoculation methods suitable for tissue culture use. The in vitro methods were validated by comparing them with similar greenhouse screens using putative potato virus Y strain o (PVY degrees ) replicase-mediated resistant regenerants of the potato cultivar Atlantic. Five transgenic lines were tested, with similar results obtained from in vitro and greenhouse experiments. Two of the transgenic lines, A1 and A3, showed the greatest resistance to PVY degrees infection, as indicated by low enzyme-linked immunosorbent assay values and infection rates. In vitro mechanical inoculation methods were also used to infect wild-type tomato and tobacco plants with cucumber mosaic virus and potato virus Y. Potato plants were also infected with the phloem-restricted potato leafroll virus, a low-titer virus, using in vitro graft inoculation methods. These results suggest the potential usefulness of these simple, effective, and economical techniques for screening large numbers of putative virus-resistant plants.     

马铃薯Y病毒CP基因5'端和3'端反向重复结构介导的抗病性研究

 本研究克隆了来源于马铃薯Y病毒坏死株系(PVY^N)外壳蛋白(CP)基因(PVY^N CP)5'端和3'端的反向重复cDNA序列,并构建了植物表达载体pROKⅡ-5'IR和pROKⅡ-3'IR,利用农杆菌介导的叶盘法转化烟草NC89,分别获得166和126株转基因烟草。抗病性试验表明,转化PVY^N CP基因3'端茎50 bp(环50 bp) hpRNA(hairpin RNA)的烟草抗病率达69%,而转化PVY^N CP基因5'端相同片段长度的hpRNA的烟草却全部发病。Southern blot结果表明,转基因植株的抗病性与转基因的拷贝数之间无明显的相关性;Northern blot结果表明,目的片段转录产物的积累量与植株的抗病性呈负相关,证明所获得的抗病性是RNA介导的抗病性。研究结果证明PVY^N CP基因的3'端比5'端更能有效地诱发基因沉默,并且hpRNA茎部的长度可减少到50 bp。该结果为探索利用CP基因的最短长度和有效部位的基因片段来培育多抗病毒转基因植物提供了依据。     

hpRNA的茎环比例对RNA介导的病毒抗性产生的影响

 以马铃薯Y病毒坏死株系(PVY^N)的外壳蛋白(coat protein,CP)基因3'端50bp片段为hpRNA的茎,以pUC19不同长度的序列为hpRNA的环,构建了茎环比例分别为4:1、2:1、1:1、1:2、1:4和1:8的植物表达载体。利用农杆菌介导法转化烟草品种NC89,获得了多种转基因植株。室内抗病性检测发现:不同茎环比例的hpRNA介导的病毒抗性效率不同;茎环比例为4:1、2:1和1:1时效率较高,抗性植株的比例达60%左右;随着环长度的逐渐增加,抗性植株的比例逐渐降低;当茎环比例为1:8时,抗性植株的比例仅为9.52%。Southern blot分析结果表明:外源基因已整合于烟草的基因组中,且转基因植株的抗病性与转基因的拷贝数之间无明显的相关性。Northern blot分析结果表明:目的片段转录产物的积累量与植株的抗病性呈负相关,证明所获得的抗病性是RNA介导的。     

RNAi‐based enhanced resistance to Cowpea severe mosaic virus and Cowpea aphid‐borne mosaic virus in transgenic cowpea

Cowpea (Vigna unguiculata) is one of the most important legumes cultivated in many parts of the world. The diseases caused by Cowpea severe mosaic virus (CPSMV) and Cowpea aphid‐borne mosaic virus (CABMV) are considered among the most important constraints on yield and quality, especially in Latin America and Africa. Here, the concept of using an RNA interference construct to silence the CPSMV proteinase cofactor gene and the CABMV coat protein gene is explored, in order to generate resistant transgenic cowpea plants. Ten cowpea transgenic lines were produced, presenting a normal phenotype and transferring the transgene to the next generation. Plants were tested for resistance to both CABMV and CPSMV by mechanical co‐inoculation. Seven lines presented milder symptoms when compared to the control and three lines presented enhanced resistance to both viruses. Northern analyses were carried out to detect the transgene‐derived small interfering RNA (siRNA) in leaves and revealed no correlation between siRNA levels and virus resistance. Additionally, in the symptomless resistant lines the resistance was homozygosis‐dependent. Only homozygous plants remained uninfected while hemizygous plants presented milder symptoms.     

酵母pac1基因介导对葡萄B病毒的抗性

为明确广谱性抗病毒基因—酵母pac1基因对葡萄B病毒(Grapevine virus B,GVB)的抗性效果,通过农杆菌介导的遗传转化,将pac1基因导入西方烟37B,对转基因植株进行PCR鉴定及Southern blot分析,通过病毒摩擦接种观察症状以及实时荧光定量RT-PCR检测植株体内病毒含量,并对转基因植株抗病性进行初步鉴定。结果表明,目的基因pac1成功导入并整合至西方烟37B基因组,共获得10个转基因株系。不同株系的T1代烟草中阳性植株比例为16.7%~72.7%,表明目的基因可成功遗传到子代。接种病毒后转基因植株普遍延迟发病,但后期症状与非转基因对照相似,其中仅1个转基因株系B6具有不表现典型症状等抗性反应。接种植株病毒含量检测中,所有转基因植株均检测到病毒存在,但表现为抗病的B6株系中病毒含量显著低于非转基因对照,表明该转基因植株虽不能完全抵抗GVB侵染,但对GVB具有耐病性。     

核基质结合区对马铃薯Y病毒全长非翻译CP基因介导抗病性的影响

 为探索核基质结合区(matrix attachment regions,MARs)对RNA介导的病毒抗性的影响,我们将从烟草中克隆到的核基质结合区TM2构建在包含马铃薯Y病毒全长非翻译CP基因的植物表达载体pRPVYCPN的表达盒的两侧,构建了植物表达载体pRTM2CPNTM2。采用农杆菌介导基因转化法,将表达载体pRPVYCPN和pRTM2CPNTM2转入烟草品种NC89中,分别获得了144株和344株转基因烟草。抗病性检测发现,核基质结合区的存在能明显提高RNA介导抗性的产生效率。在含MARs转基因植株中,抗病植株的比率为15.1%,而不含核基质结合区的转基因植株的抗病比率则为8.3%。这一研究结果对抗病毒植物的分子育种和转基因表达调控有指导意义。     

油菜病毒病种子带病毒的初步研究

 感染芜菁花叶型病毒和烟草花叶型病毒的油菜病株种子的种皮内带有病毒,种胚自未成熟到成熟始终不带病毒。
烟草花叶型病毒在种皮内的存活期限长于芜菁花叶型病毒。烟草花叶型毒株61-16号,在"胜利"油菜病株种子的种皮内可以存活26个月以上;芜菁花叶型病毒存活期最长的一个毒株不超过25个月,最短的不到4个月。     

RNA silencing against viruses: molecular arms race between Cucumber mosaic virus and its host

Plants have developed RNA silencing as an antiviral defense mechanism. To escape from the plant host’s defenses, viruses have countered their host’s antiviral silencing by producing RNA silencing suppressor proteins (RSSs). Although the mode of action of the majority of viral RSSs has been found to be through double-stranded RNA-binding, viruses have different strategies to counteract the host’s antiviral silencing pathways. The 2b protein of Cucumber mosaic virus, which is one of the most extensively studied viral RSSs, is reviewed here to provide insights on the molecular arms race between viruses and their host plants.     

正向和反向重复RNA介导的抗马铃薯Y病毒基因工程比较研究

 RNA介导的病毒抗性与RNA沉默现象密切相关。反向重复cDNA序列(IR)的转录产物往往形成双链RNA结构,而双链RNA是诱发RNA沉默的有效因子。据此,本研究通过体外合成马铃薯Y病毒坏死株系衣壳蛋白基因(PVY^N-CP)5'端反向重复cDNA序列和正向重复cDNA序列(DR),分别构建植物表达载体pROK-IR和pROK-DR,利用农杆菌介导方法转化烟草NC89,比较这2种转基因烟草在RNA介导抗病性方面的差异。抗病性检测表明,转化IR和DR的转基因烟草均可获得抗病程度达到免疫的植株,但转化IR序列可大大提高抗病植株在转基因植株中的比例。分析结果表明所获得的抗病性为RNA介导的抗病性,是RNA沉默的结果。这一研究结果为利用IR策略进行抗病毒遗传育种提供了理论依据,并为讲一步开展RNA介导抗病性的机制研究奠宗了基础。