广东甘蔗黄叶病田间调查及病原病毒的分子检测

 广东省粤北和粤西蔗区多个县市的田间甘蔗上观察到甘蔗黄叶病(Sugarcane yellow leaf disease,SYLD)典型症状,目前该病仅局部分布,但部分田块病株率为5%~80%,发病品种有青皮果蔗、黑皮果蔗、新台糖系列品种、粤糖79/177和粤糖93/159等。采集发病田间显症叶片、无症叶片和在病叶上取食的甘蔗绵蚜(Ceratovacuna lanigera)样品,抽提总RNA,以基于甘蔗黄叶病毒(Sugarcane yellow leaf virus,SCYLV) CP基因序列的特异引物进行一步RT-PCR和巢式PCR扩增,并对扩增产物进行核苷酸序列测定和BLAST比对。结果显示,RT-PCR及巢式PCR产物核苷酸序列与分离自巴西的SCYLV B1株系相应区段同一率为100%;一步RT-PCR可从约70%的显症叶片样品中检测到SCYLV,而病田中的无症叶片样品以及在病叶上取食的单头甘蔗绵蚜样品需经巢式PCR扩增方可检测到SCYLV,阳性率分别为1%~5%和83%。本研究表明,广东省栽培甘蔗已受到SCYLV侵染,甘蔗绵蚜携带SCYLV。     

我国甘蔗主要杂交亲本黄叶病病原鉴定及田间发病率

甘蔗黄叶病是一种发生普遍、危害严重的病毒病害,选育抗病品种是控制该病发生与蔓延的有效措施.利用逆转录-聚合酶链反应(RT-PCR)、组织印迹杂交免疫测定(TBIA)和抗原直接包被酶联免疫吸附(DAC-ELISA)方法对我国43份甘蔗主要杂交亲本黄叶病病原(Sugarcane yellow leaf virus,SCYLV)进行鉴定,并调查SCYLV田间自然侵染条件下甘蔗黄叶病发病率.已明确36份亲本材料感染或未感染SCYLV,其中32份鉴定结果为阳性,品种(系)感病率达88.9％.甘蔗植株田间自然发病率可分为无发病、发病率低、中等和高4个等级,方差分析表明,各等级间的植株发病率差异达极显著水平(P＜0.01).从美国引进的多数CP和HoCP系列亲本发病率较高,而多数崖城和新台糖系列亲本材料的发病率较低,可作为甘蔗抗黄叶病杂交亲本.     

甘蔗黄叶病毒外壳蛋白基因克隆及其实时荧光RT-PCR检测

 甘蔗黄叶病毒（Sugarcane yellow leaf virus, SCYLV）引起的甘蔗黄叶病是一种新的全球性病毒病害。本文以YLSCPF1和YLSCPR591为引物,采用RT-PCR方法克隆了甘蔗黄叶病毒福建分离物（CHN-FJ1）外壳蛋白（CP）基因,编码196个氨基酸。分析不同地理来源的SCYLV病毒分离物cp基因核苷酸及其推导编码的氨基酸序列,同源性达95%以上。根据cp基因的保守序列,设计1对特异性引物和TaqMan探针,建立了SCYLV的TaqMan实时荧光RT-PCR方法。结果表明,检测下限为初始质粒模板DNA 1 000拷贝/μL（约3.61 fg/μL）,比常规PCR方法的灵敏度提高100倍。检测甘蔗花叶病毒、宿根矮化病菌和黑穗病菌,没有典型的扩增曲线和无Ct值。应用实时荧光RT-PCR、常规RT-PCR和组织印迹免疫杂交（TBIA）对田间甘蔗叶片样品进行检测,阳性检出率分别为100%、61.5%和69.2%,表明该方法比常规RT-PCR和TBIA具有更高的灵敏度,适合于对SCYLV的检测。     

甘蔗病毒病及其防治研究进展

甘蔗是最重要的糖料作物,由于其栽培过程中采用种茎无性繁殖,病毒病发生逐年加重.已知侵染甘蔗的病毒种类有甘蔗花叶病毒(Sugarcane mosaic virus,SCMV)、高粱花叶病毒(Sorghummosaic virus,SrMV)、甘蔗线条花叶病毒(Sugarcane streakmosaic virus,SCSMV)、甘蔗黄叶病毒(Sugarcane yellow leaf virus,SCYLV)、甘蔗斐济病病毒(Sugarcane Fiji disease virus,SFDV)、甘蔗线.条病毒(Sugarcane streak virus,SSV)和甘蔗杆状病毒(Sugarcane bacilliform virus,SCBV).文中简要介绍上述几种病毒的基本特性及其所致病害的发生特点,对目前甘蔗病毒病防治技术进行了评述,提出了我国甘蔗病毒研究中需要关注的若干问题.     

甘蔗黄叶病毒运动蛋白的原核表达和抗血清制备

 甘蔗黄叶病毒(Sugarcane yellow leaf virus,ScYLV)属于黄症病毒科(Luteoviridae)、马铃薯卷叶病毒属(Polerovirus),主要由蚜虫传播,能够侵染甘蔗、玉米等多种作物,引发严重的植物病害。本研究将编码ScYLV运动蛋白(Movement protein,MP)的基因连接到pDB-His-MBP原核表达载体上,转化到大肠杆菌菌株Rosetta中,经IPTG诱导,表达分子量大小约为70 kDa的融合蛋白,将纯化后的融合蛋白制备多克隆抗血清。利用western blot检测抗血清的效价为1:128 000,灵敏度为1:256,抗血清不与马铃薯卷叶病毒属(Polerovirus)的其它病毒以及黄症病毒属(Luteovirus)病毒发生交叉反应,具有很好的特异性。本文制备的ScYLV MP抗血清可以用于ScYLV的检测,并为深入研究ScYLV与寄主的相互作用等问题提供材料基础。     

烟草曲茎病毒/DNAβ病害复合体研究进展

烟草曲茎病毒(Tobacco curly shoot virus, TbCSV)是从云南烟草上分离的双生病毒科Geminiviridae菜豆金色花叶病毒属Begomovirus的一个新种,在番茄和烟草上可引起严重的曲叶病。该病毒与伴随卫星DNAβ形成的病害复合体在病毒致病性、DNAβ与辅助病毒的伴随关系及调控症状的作用等方面均与其它双生病毒病害复合体不同,对其进化起源的研究表明,TbCSV在进化中介于需要卫星的双生病毒和真正的单组分双生病毒之间,因而针对TbCSV病害复合体的研究对于解读双生病毒的起源和遗传进化机制具有重要意义。作者从TbCSV病害复合体的发生危害、基因组结构、伴随小分子DNA、各DNA组分互作以及起源进化等方面综述了该病毒病害复合体的研究进展。     

果蔗脱毒种苗甘蔗花叶病、黄叶病和宿根矮化病分子检测

为监测2016-2017年种植的果蔗脱毒种苗脱毒效果,分别采集广州市南沙区和增城区、湛江市麻章区及华南农业大学甘蔗育种基地共83份果蔗脱毒种苗样本,进行甘蔗花叶病毒(SCMV)、高粱花叶病毒(SrMV)和甘蔗黄叶病毒(SCYLV)RT-PCR检测。结果表明SCMV的阳性样本数为3个,阳性检出率3.61%;SrMV的阳性样本数为0;SCYLV的阳性样本数为78个,阳性检出率93.98%。采用常规PCR和巢式PCR技术对采集于广州市增城区和华南农业大学甘蔗育种基地的30份果蔗脱毒种苗样本进行宿根矮化病菌(Lxx)检测,常规PCR检测阳性样本数为0,巢式PCR检测疑似阳性样本数为8,疑似阳性检出率26.67%。本研究采用茎尖组织培养脱毒技术培育的果蔗脱毒种苗能有效脱除果蔗种苗内的SCMV、SrMV和Lxx,但SCYLV的脱除效果有待进一步研究。     

广东甘蔗引种基地甘蔗黄叶病毒分子鉴定

 甘蔗黄叶病1989年首先发现于美国夏威夷,当时不知其病原性质,称为甘蔗黄叶综合症。1990年以来,该病在世界多个蔗区发生,引起严重的产量损失^[1,2]。     

甘蔗重要病害分子检测技术

快速有效地对甘蔗重要病害病原进行诊断检测,明确监测病害的病原是科学有效防控甘蔗病害的基础和关键。云南省农业科学院甘蔗研究所通过探索研究、改进创新、优化建立了甘蔗黑穗病、锈病、白条病、宿根矮化病、赤条病、花叶病、斐济病、黄叶病、杆状病毒病和白叶病等10种重要病害13种病原的分子快速检测技术,为甘蔗病害的有效诊断和防控、脱毒健康种苗检测及引种检疫提供了技术支撑。     

浙江甘蔗花叶病病原初步鉴定

 本文报道了一种在浙江省北部地区发生的甘蔗病毒病害。病毒粒子呈线状,长度为740 nm,在甘蔗病组织中形成风轮状内含体,病毒外壳蛋白分子量约36 kDa,表明其病原为马铃薯Y病毒科成员,血清学研究表明该病毒与高粱花叶病毒(Sr MV)反应强烈,与甘蔗花叶病毒(ScMV)及玉米矮花叶病毒(MDMV)反应次之,与约翰逊草花叶病毒(JGMV)的反应较弱,认为该病毒可能是甘蔗花叶病毒亚群的一个成员。     

Elimination of Sugarcane yellow leaf virus from infected sugarcane plants by meristem tip culture visualized by tissue blot immunoassay

Sugarcane yellow leaf virus (SCYLV), a member of the Luteoviridae , is implicated in the sugarcane disease known as yellow leaf syndrome (YLS), which is characterized by yellowing of the leaf midrib followed by leaf necrosis and possible growth suppression. YLS is distributed worldwide and susceptible cultivars are commonly infected with SCYLV. However, not all cultivars infected with SCYLV show symptoms of YLS and some cultivars that show symptoms do so sporadically. Since it is difficult to obtain virus-free plants of susceptible cultivars, it has not been possible to study the factors involved in SCYLV infection nor the effects of infection on plant growth and yield. A tissue blot immunoassay was used to visualize in vivo presence of the virus so that virus-infected and virus-free plants could be distinguished. Meristem tip cultures were used to produce virus-free plantings of six SCYLV-susceptible sugarcane cultivars. Nearly all of the regenerated sugarcane lines remained virus-free over a period of up to 4 years, whether grown in isolated fields or in the glasshouse. Experimental re-infection of the virus-free plants by viruliferous aphids demonstrated that meristem tip culture did not affect susceptibility of sugarcane to SCYLV. Improved diagnosis and production of virus-free plants of SCYLV-susceptible cultivars will facilitate research to quantify the effect of the virus on yield and to analyse the processes involved in disease development.     

Sugarcane yellow leaf virus and sugarcane yellows phytoplasma: elimination by tissue culture

Yellow leaf syndrome (YLS) is a recently reported disease of sugarcane, characterized by yellowing of the leaves. Two pathogens: a virus, Sugarcane yellow leaf virus (SCYLV); and a phytoplasma, sugarcane yellows phytoplasma (SCYP), are associated with the disease. The use of tissue culture was investigated as a means to eliminate both SCYLV and SCYP from exotic varieties undergoing quarantine in Mauritius. Of 43 varieties in quarantine, 28 were infected with SCYLV and 19 with SCYP when checked by RT–PCR and nested PCR, respectively. Seventeen varieties were coinfected with both pathogens. Thirty infected varieties were induced to form callus in vitro using leaf rolls as explants. After two subcultures, 19 varieties were successfully regenerated and tested for SCYLV and SCYP. No pathogen could be detected in any regenerated plantlets. All the regenerated plants remained free from both SCYLV and SCYP over a period of 1 year in the glasshouse, confirming that the pathogens had been eliminated by tissue culture.     

Impact of Sugarcane yellow leaf virus on Sugarcane Yield and Juice Quality in Réunion Island

Sugarcane yellow leaf virus (SCYLV) was first detected in sugarcane of Réunion Island in 1997. A field experiment was undertaken to assess the potential impact of this virus on sugarcane production. The agronomic characteristics of SCYLV-infected plants were compared to those of virus-free plants of three sugarcane cultivars (R570, R577 and R579) which occupy more than 90% of the cultivated sugarcane area on Réunion Island. In the plant crop, significant losses in stalk weight (28%) and in sugar content (11%) were detected for cultivar R577, but not for either of the two other cultivars. In the first ratoon crop, yield reduction was detected for cultivar R577 (37%), but also for cultivar R579 (19%). Cultivar R577 also showed significant losses in sugar content (12%) due to reduced amount and quality of extracted cane juice. No yield reduction was found for cultivar R570, although stalk height and diameter were reduced in SCYLV-infected canes of this cultivar in the first ratoon crop. Leaf yellowing was observed at harvest of plant and ratoon crops when sugarcane was no longer irrigated, and 10–59% of symptomatic stalks could be attributed to the presence of SCYLV. The most severe yellowing symptoms were related to infection of sugarcane by the virus.     

南疆温室番茄黄化曲叶病病毒种类的分子鉴定

为明确南疆温室番茄黄化曲叶病的病毒种类,利用双生病毒的兼并引物通过PCR扩增,对采集的20个番茄病株进行了分子检测.从20个病株中均扩增到约500 bp的目标片段,对其中4株进行克隆和测序,其相互间序列同源性为97.1％ ～99.3％,与番茄黄化曲叶病毒(Tomato yellow leaf curl virus,TYLCV)的同源性较高,为98.6％ ～ 99.5％.随机选取莎车分离物KS2-5进行全基因组的克隆和测序,KS2-5 DNA全长为2781 nt(序列号:JQ807735),具有典型的双生病毒基因组特征,与TYLCV其它分离物同源性达到98.9％～99.5％,而与其它粉虱传双生病毒的序列同源性较低,为68.3％ ～75.5％,表明危害南疆温室番茄的病毒种类为番茄黄化曲叶病毒TYLCV.     

Variation in virus populations and growth characteristics of two sugarcane cultivars naturally infected by Sugarcane yellow leaf virus in different geographical locations

Two sugarcane cultivars (R570 and SP71-6163) naturally infected by Sugarcane yellow leaf virus (SCYLV) were each imported from several geographical locations into a sugarcane yellow leaf-free environment (Montpellier, France). Plants were grown as plant cane for 5–6 months and the experiment was repeated for three consecutive years (2003–2005) in a greenhouse. Several sugarcane-growth and disease characteristics were monitored to identify variation in pathogenicity of SCYLV. Depending on their geographical origin, sugarcane cvs R570 and SP71-6163 were infected by SCYLV genotypes BRA-PER or REU, or a mixture of the two. Severity of symptoms did not vary between plants of cv. R570, but variation in disease severity between plants of cv. SP71-6163 from different geographical locations suggested the occurrence of pathogenic variants of SCYLV. For each sugarcane cultivar, differences in stalk length, number of stalk internodes, virus titre in the top visible dewlap leaf, and percentage of infection of leaf and stalk phloem vessels were also found between plants from different geographical origins. However, these differences were not always reproducible from one year to another, suggesting occurrence of different plant responses to SCYLV isolates under varying environmental conditions.     

Impact of <Emphasis Type="Italic">Sugarcane yellow leaf virus</Emphasis> on growth and sugar yield of sugarcane

A survey revealed that Sugarcane yellow leaf virus (SCYLV) is found on all Hawaiian sugarcane plantations including those where no yellow leaf symptoms were observed. In a comparison of growth and yield between SCYLV-infected and SCYLV-free plants of the cultivar H87-4094, germination and early shoot growth of infected plants were retarded. The number of stalks per stool was reduced by 30%, biomass was reduced by 29%, and sugar yield by 26% when plants were harvested after 11 months. Yields did not decrease when plants were harvested after 2 years. Thus, SCYLV could reduce yield, even when the plants were asymptomatic. In a field test of SCYLV-susceptible (infected) and -resistant cultivars to compare growth and yield, 10 commercial cultivars (six susceptible and four resistant to SCYLV) were grown in eight fields with different climates and soils. Primary stalk length, biomass and sugar yield did not differ between susceptible and resistant cultivars under any field conditions. Thus, harmful effects of SCYLV on yield cannot be deduced by comparing different cultivars.