湖北甘薯病毒病的检测与鉴定

2013—2015年采集了湖北黄冈、鄂州、武汉、荆州以及宜昌等5个地区的甘薯病毒病样品,通过双生病毒通用引物PCR扩增、ds RNA技术和序列分析等方法,鉴定了这5个地区甘薯病毒病的病原。结果显示,甘薯羽状斑驳病毒(Sweet potato feathery mottle virus,SPFMV)、甘薯褪绿矮化病毒(Sweet potato chlorotic stunt virus,SPCSV)、黄瓜花叶病毒(Cucumber mosaic virus,CMV)和甘薯卷叶病毒(Sweet potato leaf curl Georgia virus,SPLCGV)等4种病毒被检出。其中,SPFMV SPLCGV这两种病毒在湖北皆为首次报道。     

三种甘薯病毒多重RT-PCR检测技术的建立

本文根据GenBank中甘薯G病毒(SPVG)、甘薯卷叶病毒(SPLCV)和甘薯羽状斑驳病毒(SPFMV)外壳蛋白(CP)基因序列设计特异引物,对多重RT-PCR退火温度、延伸温度、模板浓度、引物浓度进行改良优化,建立能同时检测3种甘薯病毒的多重RT-PCR方法。该方法能同时扩增出SPVG、SPLCV和SPFMV特异片段,其大小分别是800、276和570bp。测序结果表明,扩增出的3种病毒序列与相应参考序列相似性达到98%以上。灵敏度分析结果表明,多重RT-PCR方法能够检测cDNA的量为0.1ng。应用建立的多重RT-PCR检测方法对田间样品进行检测,结果显示该方法可以特异、快速、灵敏地同时检测3种甘薯病毒。这些研究结果可为甘薯病毒检测提供参考。     

利用小RNA测序技术鉴定吉林省甘薯病毒

在吉林省7个主要甘薯种植区共采集85份甘薯叶片样品,利用小RNA深度测序技术对混合样品进行检测,经RT-PCR和测序验证,鉴定出样品中存在10种病毒,包括6种RNA病毒和4种DNA病毒。分别是马铃薯Y病毒科马铃薯Y病毒属的甘薯羽状斑驳病毒Sweet potato feathery mottle virus (SPFMV)、甘薯潜隐病毒Sweet potato latent virus (SPLV)、甘薯G病毒Sweet potato virus G (SPVG)、甘薯C病毒Sweet potato virus C (SPVC)、甘薯2号病毒Sweet potato virus 2 (SPV2);长线形病毒科毛形病毒属的甘薯褪绿矮化病毒Sweet potato chlorotic stunt virus (SPCSV);双生病毒科菜豆金色花叶病毒属的甘薯曲叶病毒Sweet potato leaf curl virus(SPLCV);玉米线条病毒属的甘薯无症状1号病毒Sweet potato symptomless virus 1 (SPSMV1);花椰菜花叶病毒科杆状DNA病毒属的甘薯杆状DNA病毒B Sweet potato badnavirus B (SPBV-B)和甘薯隐症病毒Sweet potato pakakuy virus (SPPV)。     

中国甘薯病毒的血清学检测

 作者用4种甘薯病毒抗体(IgG),3种血清学方法(DAS-ELISA、Dot-blot-ELISA和ISEM)对北京,江苏、四川、山东四省(市)的253份甘薯病毒病样品进行了检测。结果表明:上述地区甘薯中普遍存在甘薯羽状斑驳病毒(SPFMV)和甘薯潜隐病毒(SPLV),尚难确定是否存在甘薯轻斑驳病毒(SPMMV)和甘薯花叶菜花叶状病毒(Sweet Potato Caulimo-like Virus,SPCLV)。21%的显症样品同上述4种病毒的抗血清不产生反应,显示我国甘薯上尚存在其它病毒。用Dot blot-ELISA和ISEM检测甘薯病毒比用DAS-ELISA灵敏准确。     

侵染甘薯的烟草花叶病毒(TMV)

 甘薯由于甘薯病毒的普遍存在而造成大幅度减产。甘薯病毒种类复杂,主要有甘薯羽状斑驳病毒(SPFMV)、甘薯潜隐病毒(SPLV)、黄瓜花叶病毒(CMV)、烟草花叶病毒(TMV)。     

甘薯羽状斑驳病毒外壳蛋白基因的分子变异

应用单链构象多态性(single-strand conformation polymorphism,SSCP)技术结合核苷酸序列测定的方法,对我国甘薯主产区11个省份的甘薯羽状斑驳病毒(Sweet potato feathery mottle virus,SPFMV)外壳蛋白(CP)基因的分子变异情况进行了研究.结果表明,SPFMV CP基因的RT-PCR产物表现了较丰富的图谱类型,50个分离物共产生9种主要的SSCP带型;对显示不同带型的20个样品的CP基因进行了序列测定和进化树分析,CP基因核苷酸序列一致性为77.2％～99.9％.说明这些样品的SPFMV的CP基因存在较大的分子变异,可划分为EA、RC、O和C4个株系.     

我国发现由甘薯褪绿矮化病毒和甘薯羽状斑驳病毒协生共侵染引起的甘薯病毒病害

甘薯病毒病害(Sweet potato virus disease,SPVD)是由毛形病毒属(Crinivirus)的甘薯褪绿矮化病毒(Sweet potato chlorotic stunt virus,SPCSV)和马铃薯Y病毒属(Potyvirus)的甘薯羽状斑驳病毒(Sweet potato feathery mottle virus,SPFMV)协生共侵染甘薯引起的病毒病害[1].     

加拿大进境大豆上检出菜豆荚斑驳病毒

本研究采用DAS ELISA、IC RT PCR及序列测定方法,对加拿大进境大豆种子进行菜豆荚斑驳病毒（Bean pod mottle virus, BPMV）和大豆花叶病毒（Soybean mosaic virus,SMV）检测,结果表明,BPMV的DAS ELISA和IC RT PCR检测结果均为阳性,且PCR扩增产物序列与已报道的BPMV基因序列相似性达97%以上,而SMV的DAS ELISA和IC RT PCR检测结果都为阴性。综合血清学、分子生物学检测结果,确认该批大豆携带有菜豆荚斑驳病毒。     

制备免疫吸附电镜检测甘薯羽状斑驳病毒样品

 甘薯羽状斑驳病毒(Sweet potato feathery mottle virus,SPFMV)可经蚜虫、摩擦、嫁接方式传播,是Y病毒组的一个成员。受此病毒感染的甘薯叶片上形成羽状褪绿斑,脉间褪绿斑点以及紫色环斑,有的品种出现紫色条纹。在甘薯块根上,有的呈严重纵向褐色龟裂,有的呈横向螺纹状木质化,有的块根内部形成木栓化,是危害甘薯最严重的病毒病害,可使甘薯严重退化及减产。无论是甘薯的抗病毒育种、病毒病害的防治,还是脱毒、无病毒甘薯种薯生产都离不开病毒的检测。灵敏的免疫吸附电镜(ISEM)检测方法被应用于各种病毒的检测中。     

Incidence of five viruses infecting sweetpotatoes in Uganda; the first evidence of Sweet potato caulimo-like virus in Africa

In a survey of most sweetpotato-growing areas of Uganda, virus-like diseases were observed in all districts surveyed. Out of 338 fields sampled in 35 of the then 42 districts, 219 (65%) had some plants with symptoms. The most common symptoms included vein clearing, mottling, leaf distortion, yellowing, stunting and leaf strapping. Particularly high virus-like disease incidences (means of 34–86%) were encountered in districts around Lake Victoria and in the Rift Valley in southern and western parts of Uganda; particularly low incidences were encountered in the east and north of Uganda. Using four formats of enzyme-linked immunosorbent assay in combination with immunoelectron microscopy and polymerase chain reaction assays, five viruses were identified. Sweet potato feathery mottle virus (SPFMV) and Sweet potato chlorotic stunt virus (SPCSV) were most commonly detected, being found in about 90% of samples. Sweet potato mild mottle virus at 10%, Sweet potato chlorotic fleck virus (SPCFV) at 8% and Sweet potato caulimo-like virus (SPCaLV) at 0·07% were more rarely detected. Most infections were multiple, SPCSV + SPFMV constituting > 90% of all double infections. Triple infections, involving mainly SPFMV, SPCSV and either SPMMV or SPCFV, and quadruple infections of SPFMV + SPCSV + SPMMV + SPCFV were observed in < 10% of the diseased samples. The identification of SPCaLV is the first evidence of its occurrence in Africa.     

国家种质广州甘薯圃病毒种类鉴定及分析

为明确引起国家种质广州甘薯资源圃中病毒病的病毒种类及优势种,为甘薯种质安全保存提供支持,2017年从甘薯资源圃中未脱毒更新的盆栽苗和大田苗中采集155份具有不同病毒病症状的甘薯资源样品,利用PCR和RT-PCR检测技术对这些样品进行了17种病毒的分子检测.155份样品均有病毒检出,包括甘薯羽状斑驳病毒Sweet pot...     

A more sensitive and rapid multiplex RT-PCR assay combining with magnetic nanobeads for simultaneous detection of viruses in sweet potato

An improved multiplex RT-PCR assay combined with magnetic nanobeads (MNB-RT-PCR) was developed for simultaneous detection of four sweet potato viruses, Sweet potato virus G (SPVG), Sweet potato feathery mottle virus (SPFMV), Sweet potato virus C (SPVC) and Sweet potato chlorotic fleck virus (SPCFV). Four primer pairs specific for each virus were designed and the corresponding PCR products were 169, 357, 516 and 900 bp in length for SPVG, SPFMV, SPVC and SPCFV, respectively. The specificity of the method was tested using different combinations of virus templates, and the identities of the amplification products were confirmed by sequencing. The limits of detection for all four viruses by single and multiplex MNB-RT-PCR assays were comparable. The assay was further evaluated using laboratory and field samples compared with a conventional CTAB-RT-PCR assay, and the comparative results showed that the MNB-RT-PCR assay was more rapid and sensitive. These results suggest that the multiplex MNB-RT-PCR assay is an effective and preferable method for virus detection in sweet potato.     

山东甘薯主要病毒的鉴定及多样性分析

为明确山东省甘薯病毒病发生现状,在重病区调查采样,通过鉴别寄主、电镜和分子检测技术明确主要病毒种类;并克隆病毒外壳蛋白基因序列,利用Mega 5.0构建系统进化树进行遗传分析。结果显示,巴西牵牛嫁接甘薯染病枝条后叶片黄化、褪绿及皱缩;病样组织中存在大量600~900 nm的线状病毒粒子和柱状内含体。24份病样中检测到甘薯羽状斑驳病毒、甘薯潜隐病毒、甘薯G病毒、甘薯曲叶病毒和甘薯褪绿矮化病毒5种病毒,其中23份为复合侵染,存在11种侵染类型。遗传分析显示山东省甘薯羽状花叶病毒主要为EA、O和C株系,甘薯潜隐病毒与周边省份分离物相近,甘薯G病毒与中国海南和美国分离物相近,甘薯曲叶病毒分属3个株系。表明山东地区甘薯病毒种类繁多,侵染模式复杂,病毒遗传结构具有多样性。     

Symptoms, aetiology and serological analysis of sweet potato virus disease in Uganda

Sweet potato virus disease (SPVD) is the name used to describe a range of severe symptoms in different cultivars of sweet potato, comprising overall plant stunting combined with leaf narrowing and distortion, and chlorosis, mosaic or vein-clearing. Affected plants of various cultivars were collected from several regions of Uganda. All samples contained the aphid-borne sweet potato feathery mottle potyvirus (SPFMV) and almost all contained the whitefly-borne sweet potato chlorotic stunt closterovirus (SPCSV). SPCSV was detected by a mix of monoclonal antibodies (MAb) previously shown to react only to a Kenyan isolate of SPCSV, but not by a mixture of MAb that detected SPCSV isolates from Nigeria and other countries. Sweet potato chlorotic fleck virus (SPCFV) and sweet potato mild mottle ipomovirus (SPMMV) were seldom detected in SPVD-affected plants, while sweet potato latent virus (SPLV) was never detected. Isolates of SPFMV and SPCSV obtained by insect transmissions together induced typical symptoms of SPVD when graft-inoculated to virus-free sweet potato. SPCSV alone caused stunting and either purpling or yellowing of middle and lower leaves when graft-inoculated to virus-free plants of two cultivars. Similarly diseased naturally inoculated field plants were shown consistently to contain SPCSV. Both this disease and SPVD spread rapidly in a sweet potato crop.     

Interactions between a crinivirus, an ipomovirus and a potyvirus in coinfected sweetpotato plants

Novel and severe symptoms of chlorosis, rugosity, leaf strapping and dark green islands, designated as sweetpotato severe mosaic disease (SPSMD), were caused by dual infection of Sweet potato mild mottle virus (SPMMV; Ipomovirus ) and Sweet potato chlorotic stunt virus (SPCSV; Crinivirus ) in three East African sweetpotato cultivars (Tanzania, Dimbuka and New Kawogo). The storage root yield was reduced by ∼80%, as compared with healthy plants under screenhouse conditions in Uganda. Plants infected with SPMMV or SPCSV alone showed nonsignificant or 50% yield reduction, respectively. SPCSV reduced resistance to SPMMV in sweetpotato, similar to the situation with resistance to Sweet potato feathery mottle virus (SPFMV; Potyvirus ) that breaks down following infection with SPCSV, followed by development of sweet potato virus disease (SPVD). In single virus infections with SPMMV and SPFMV or their coinfection, cvs Tanzania and Dimbuka were initially systemically infected, displayed symptoms and contained readily detectable virus titres, but new leaves were symptomless with very low virus titres, indicating recovery from disease. In contrast, cv. New Kawogo remained symptomless and contained low SPMMV and SPFMV titres following graft inoculation. These moderate and high levels of resistance to SPMMV and SPFMV, respectively, were lost and cultivars succumbed to a severe disease following coinfection with SPCSV. The synergistic interactions increased titres of SPMMV and SPFMV RNA by ∼1000-fold as quantified by real-time PCR, whereas SPCSV titres were reduced twofold, indicating an antagonistic interaction. Coinfection with SPMMV and SPFMV caused no detectable changes in virus titres or symptom severity.