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J. B. Valente F. S. Pereira L. A. Stempkowski M. Farias P. Kuhnem D. Lau T. V. M. Fajardo A. Nhani Junior R. T. Casa A. Bogo F. N. da Silva 《Plant pathology》2019,68(3):588-600
Soilborne wheat mosaic disease (SBWMD), originally attributed to infections by Soilborne wheat mosaic virus (SBWMV) and Wheat spindle streak mosaic virus (WSSMV), is one of the most frequent virus diseases and causes economic losses in wheat in southern Brazil. This study aimed to characterize molecularly the viral species associated with wheat plants showing mosaic symptoms in Brazil. Wheat leaves and stems displaying mosaic symptoms were collected from different wheat cultivars in Passo Fundo municipality, Rio Grande do Sul State, southern Brazil. Double-stranded RNA was extracted and submitted to cDNA library synthesis and next-generation sequencing. No sequences of SBWMV and WSSMV were detected but the complete genome sequence of a putative new member of the family Benyviridae was determined, for which the name wheat stripe mosaic virus (WhSMV) is proposed. WhSMV has a bipartite genome with RNA 1 and RNA 2 organization similar to that of viruses belonging to Benyviridae. WhSMV RNA 1 has a single open reading frame (ORF) encoding a polyprotein with putative viral replicase function. WhSMV RNA 2 has six ORFs encoding the coat protein, the major protein (read-through), triple gene block movement proteins (TGB 1, 2 and 3) and ORF 6 (hypothetical protein). In addition to the genomic organization and nucleotide and amino acid sequence identities, phylogenetic analyses also corroborated that WhSMV is a virus species of the Benyviridae. However, isolates of WhSMV formed a clade distinct from members of the genus Benyvirus. It was also demonstrated that the plasmodiophorid Polymyxa graminis is associated with wheat roots showing SBWMD symptoms and infected by WhSMV. 相似文献
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安徽省来安县小麦梭条花叶病的病原鉴定和防治 总被引:2,自引:0,他引:2
近年来安徽省来安具发生一种呈典型梭条花叶病症状的小麦病害,用病叶进行一系列抽提,制得病原初提纯制剂。经紫外扫描测定为标准的核蛋白吸收曲线,最大吸收值在260nm处,A260/A280为1.27,Amax/Amin为1.16。电镜观察病原为线状病毒颗粒,宽12—13nm,长度分布在100nm—600nm之间,1000nm以上颗粒所占比例较少。提纯病毒制剂经SDS—聚丙烯酰胺凝胶电泳,可见到36.8kd的模糊蛋白带,但最易出现的是29kd和27kd二条明显的带。病原与小麦梭条花叶病毒抗血清起阳性反应。仪发现侵染小麦,并通过土壤传播,最后鉴定该病病原为小麦梭条花叶病毒,并对该毒源病毒外壳蛋白组分易于降解成较小的产物和不同分离物致病力关系提出讨论。同时在来安引种3165等抗病良种并结合其它措施进行防治,取得了明显的防治效果。 相似文献
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K. Kanyuka † D. J. Lovell O. P. Mitrofanova K. Hammond-Kosack M. J. Adams 《Plant pathology》2004,53(2):154-160
Several wheat genotypes, including eight with known field responses, were evaluated for their reaction to Soil-borne cereal mosaic virus (SBCMV, genus Furovirus) by growing in naturally infested soil under controlled environment conditions. Virus antigen titres in the foliage 8–9 weeks after sowing mostly reflected the field responses, showing that growth chamber-based tests can be used to improve the speed and reliability of germplasm screening. Such tests were used to determine the mode of inheritance of the SBCMV resistance in cv. Cadenza, commonly used in UK wheat-breeding programmes. One hundred and eleven doubled haploid (DH) lines derived from an F 1 of a cross between cvs Cadenza (resistant) and Avalon (susceptible) were evaluated. This DH population segregated for the reaction to SBCMV in a ratio of 1 : 1 (resistant : susceptible). This suggests that the SBCMV resistance is controlled by a single gene locus. As a first step towards identification of new sources of improved SBCMV resistance (e.g. immunity) as well as sources of the resistance to the virus vector, Polymyxa graminis , a set of 26 Triticum monococcum lines of diverse geographical origin was also screened. Most lines were susceptible to SBCMV, but one line of Bulgarian origin was resistant to the virus and possibly partially resistant to the virus vector. 相似文献
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Molecular characterization and detection of European isolates of Soil-borne wheat mosaic virus 总被引:1,自引:0,他引:1
Sequencing of a recently identified isolate of Soil-borne wheat mosaic virus (SBWMV) from the UK confirmed its identity as a European strain of the species and provided further evidence for taxonomic divisions in the group. Two RT–PCR protocols were developed for the detection of all SBWMV strains and for the specific detection of the European SBWMV strain, and were tested successfully on 21 isolates of SBWMV from a range of countries. Both protocols worked well using either purified total RNA in one- or two-step RT-PCR, or immunocapture (IC) RT–PCR. The sensitivity of IC RT-PCR was 100 times greater than ELISA. Neither set of primers produced any PCR product with either Wheat spindle streak mosaic virus or Wheat yellow mosaic virus which are frequently associated with SBWMV, or with the related viruses Indian peanut clump virus , Potato mop-top virus , Beet soil-borne virus and Beet necrotic yellow vein virus . This new diagnostic protocol will improve disease management by enabling correct identification of the causal pathogen and earlier detection than is possible serologically. 相似文献
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Indian peanut clump virus (IPCV) infection on wheat and barley: symptoms, yield loss and transmission through seed 总被引:1,自引:0,他引:1
Wheat and barley crops were shown to be susceptible to Indian peanut clump virus (IPCV) under field conditions. In wheat, the Hyderabad isolate of IPCV (IPCV-H) induced symptoms resembling the rosette caused by soil-borne wheat mosaic virus, and these were apparent only three weeks after emergence. Early-infected plants were severely stunted and dark green, with chlorotic streaks on the youngest leaves, which turned necrotic as the plants aged; most of these plants died. Late-infected plants were also stunted and were conspicuous in the field because of their dark green appearance as a result of delayed maturity. The virus was detected by ELISA and nucleic acid hybridization in all plants with symptoms. These plants usually produced fewer tillers than healthy ones. Spikes were malformed, often did not emerge from the flag leaf, and they contained few, shrivelled seeds. Grain yield was decreased, on average, by 58%. In barley, IPCV-H caused severe stunting and general leaf chlorosis. As the plants aged, the leaves became necrotic and the few infected plants that reached maturity produced small spikes. IPCV-H antigens were detected by ELISA in every wheat seed from infected plants and the virus was transmitted through wheat seed at a frequency of 0.5–1.3%. Storage at 4°C for more than a year did not affect seed transmission frequency. The virus was detected in leaves and roots of seed-transmitted plants. Seed transmission was not detected in barley. The Durgapura isolate (IPCV-D) was detected in wheat crops (cv. RR-21) at 3 different locations in Rajasthan State, India. Infected plants showed reduced growth without any overt symptoms. 相似文献
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中国小麦黄花叶病毒(WYMV)分布的RT-PCR鉴定 总被引:16,自引:3,他引:16
镰刀菌产生的单端孢霉烯毒素,包括DON、DAS和T-2毒素,是一类重要的植物病原真菌毒素。这类毒素不仅加强病菌的为害程度,而且人畜食用罹病谷物及其制成品易造成中毒。近年来,单端孢霉烯毒素的生物合成途径、关键酶及其基因克隆,毒素在致病过程中的作用,以及利用毒素作为选择压鉴定小麦抗病性和筛选抗病突变体均取得了明显进展。本文对此作一综述。 相似文献
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核苷酸序列分析结果表明,小麦黄色花叶病毒(W YMV)不同分离物的外壳蛋白基因存在一定的差异。邓州分离物CP基因在其31~33nt处均缺失了3个核苷酸,其余分离物与潢川分离物及日本分离物长度一致,均为882nt。不同分离物CP基因核苷酸序列同源性为97.3%~98.9%,由此推导的氨基酸序列同源性为97.6%~99.3%,外壳蛋白N末端的110个氨基酸和C末端的55个氨基酸在各个分离物间是高度保守的。潢川分离物有5个氨基酸与其它5个分离物明显不同。WYMV不同分离物外壳蛋白序列分析结果进一步确认了WYMV与WSSMV为Bymovirus属的2种不同病毒。 相似文献
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Wheat streak mosaic virus (WSMV) is an economically important pathogen of wheat (Triticum aestivum) causing major yield losses in regions where severe infection occurs. To detect the presence of any new virus or new WSMV isolates, green foxtail (Setaria viridis) plants exhibiting virus-like symptoms were sampled in a summer-fallowed wheat field at the Agricultural Research Center-Hays, Kansas State University, Hays, Kansas. These plants were tested serologically for four wheat viruses: WSMV, Triticum mosaic virus (TriMV), High Plains wheat mosaic virus (HPWMoV) and Foxtail mosaic virus (FoMV). Among 38 plant samples exhibiting virus-like symptoms, 29 contained WSMV as indicated by ELISA. Four isolates from samples with relatively strong reactions were transferred to healthy wheat seedlings by mechanical inoculation in a growth chamber for pathogenicity testing. Three isolates were avirulent to a wheat variety RonL, which contains Wsm2, a gene providing temperature-sensitive resistance to currently prevalent isolates of WSMV. However, one isolate, KSH294, was able to infect RonL and showed more virulence on two other varieties/lines containing Wsm2. Further sequence and phylogenetic analysis of KSH294 confirmed that this isolate displays a sequence homology with WSMV, but has sequence differences making it distinct from previously identified WSMV isolates included in the phylogenetic analysis. 相似文献
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Molecular comparisons amongst wheat bymovirus isolates from Asia, North America and Europe 总被引:2,自引:0,他引:2
Jiong Chen Sohn Chen Lei Cheng Schulze Steinbiss Antoniw & Adams 《Plant pathology》1999,48(5):642-647
To study the variation between wheat bymovirus isolates and to resolve uncertainties about the identity of the virus in some countries, leaves of infected plants were obtained from nine sites in China and from one each in Italy, Germany, USA and Canada. The German isolate was obtained from rye and the Canadian isolate was the type strain of wheat spindle streak mosaic virus (WSSMV). In RT-PCR, using primers designed from a partial sequence of a French isolate (tentatively described as WSSMV), genome fragments were obtained from the Italian and the French isolates but not from the Chinese ones. Conversely, products were consistently obtained from the Chinese isolates, but not from the Italian or French ones, when primers were designed from the sequence of a Japanese isolate of wheat yellow mosaic virus (WYMV). Nucleotide sequences were obtained from regions at or near the 3'-terminus of RNA1 of six Chinese isolates and the four from Europe and North America, usually including the coat protein. Nucleotide and amino acid sequence comparisons demonstrated that the European and North American isolates were extremely similar and were therefore WSSMV, while the Chinese isolates were close to the Japanese isolate and were thus WYMV. 相似文献
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中国小麦花叶病毒(Chinese wheat mosaic virus,CWMV)是我国小麦土传花叶病毒病的重要病原。将CWMV RNA1、RNA2片段分别连接到pCB301-Rz载体,得到重组质粒pCWMV-RNA1和pCWMV-RNA2,这2个质粒可在本氏烟上引起花叶和畸形症状,在小麦上引起黄花叶症状。在pCWMV-RNA2富含半胱氨酸蛋白基因的5'-端融合绿色荧光蛋白基因,可在本氏烟上系统产生绿色荧光。将RNA1 RdRp第1001位Asp(D1001)和RNA2 CP第127位Glu(E127)的密码子替换为丙氨酸Ala(A)密码子,获得突变体CWMV-RdRp-D1001A、CWMV-CP-E127A、CWMV-RdRp-D1001A /CP-E127A。与野生型CWMV相比,这3个突变体在本氏烟中致病力显著下降,积累量显著降低。 相似文献
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Surveys were conducted during the cool-dry months of June–August 1997 and June–July 1998 for the presence of viruses in irrigated wheat in Central, Copperbelt, Lusaka and Southern Provinces of Zambia in 14 commercial farms and four wheat cultivar plots. Virus symptoms were observed on nine wheat cultivars ( Triticum aestivum 'Deka', 'Gamtoos', 'Lorie II', 'MM2', 'Nata', 'Nkwazi', 'P7', 'Scan' and 'Sceptre') of South African, Zambian and Zimbabwean origin. Several viruses were identified on the basis of field symptomatology, symptoms developing on mechanically inoculated indicator plant species or cultivars and serology (DAS-ELISA). The study revealed the occurrence of Brome mosaic virus (BMV), Barley stripe mosaic virus (BSMV), Barley yellow dwarf virus and its strains (BYDV-PAV and RPV), Soil-borne wheat mosaic virus (SBWMV), Wheat dwarf virus (WDV), Wheat streak mosaic virus (WSMV) and Wheat spindle streak mosaic virus (WSSMV). DSA-ELISA tests confirmed these identifications. The prevalence of viruses varied annually and from field to field. BSMV, BYDV-PAV, SBWMV, WDV, WSMV and WSSMV were found to be the most prevalent viruses. Viruses generally occurred in mixed infections of 3–6 viruses and the most common virus complex consisted of 4 viruses (50%), viz. BYDV, SBWMV, WDV and WSSMV. Five- and six-virus complexes were relatively less common (20% each) whereas 3-virus complex was noticed in only 10% cases. SBWMV and WSSMV have been found to be new to Africa and Zambia and are reportedly vectored by a fungal protist – Polymyxa graminis . BYDV strains MAV and SGV were also tested but gave negative results against their antisera. 相似文献
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Wheat plants infected with wheat streak mosaic virus were studied for their physiological response to infection. Previous histological data suggest that wheat streak mosaic virus-induced deposits of phenolic nature are present along the bundle sheath and mesophyll cell walls. In this study, we examined this phenomenon further by analysis of phenolic compounds and enzymes involved in their synthesis. In infected plants, the amounts of free and wall-bound phenolic compounds increased slightly, and chromatography showed that the type of free phenolic compounds present had changed. The amount of lignin did not change due to infection. Enzyme assays showed that while phenylalanine ammonia lyase and tyrosine ammonia lyase activities decreased as they do in healthy plants, cinnamyl alcohol dehydrogenase activity stayed high throughout infection. In addition, peroxidase activities in infected plants decreased around the time that the leaves ceased to expand. These results suggest that the general phenylpropanoid pathway is stimulated upon infection, but that lignification is not. 相似文献
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在实验室中利用灰飞虱接种小麦时出现一种新的病毒病症状,鉴定表明其病原为大麦黄条点花叶病毒(Barley yellow striate mosaic virus, BYSMV)。采用生物学测定、电镜观察、RT-PCR检测和序列分析的方法,明确了该病毒的粒体特性、危害症状及田间发生情况。接种试验表明该病毒通过灰飞虱传播,接种7~10 d后小麦新生叶片出现黄色斑点、斑驳,继而发展成黄色条纹,叶片对生且细而窄,重病株新叶扭曲,叶鞘不能伸长,病株矮化。对小麦病叶超薄切片电镜观察,发现细胞质中存在大量弹状病毒粒子,病毒粒体大小为(315~353)nm×(46~57) nm。利用特异性引物从病株总RNA中扩增出 565 bp基因片段,序列同源性分析显示与大麦黄条点花叶病毒(Barley yellow striate mosaic virus, BYSMV) Zanjan-1分离物聚合酶(L)基因对应序列的一致性为97 %,与北方禾谷花叶病毒(Northern cereal mosaic virus, NCMV) L基因对应序列的一致性为78 %~79 %。对采自河北邯郸、石家庄、保定、唐山的31株样品进行RT-PCR检测,25株检测到BYSMV,7株检测到水稻黑条矮缩病毒(Rice black streaked dwarf virus,RBSDV),其中5株为2种病毒复合侵染,结果表明BYSMV的田间分布较广。系统发育分析表明BYSMV-Lab/TS/ZX/QY 4个分离物与本研究的BYSMV亲缘关系密切。BYSMV是我国小麦上新发现的一种弹状病毒,并已形成危害,暂定名为小麦黄条纹矮缩病,应加强流行动态监测。 相似文献
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Lu Xiaoyun Satoshi Kashiwazaki Masaru Tamura Shigetou Namba 《European journal of plant pathology / European Foundation for Plant Pathology》1998,104(8):765-768
The sequence of the 3 terminal 1722 nucleotides (nts) of RNA1 of the type (Canadian) isolate of wheat spindle streak mosaic bymovirus (WSSMV-C) was determined. The sequence started within a single open reading frame (ORF), which was expected to encode the carboxyl terminus of the nuclear inclusion b protein (NIb) and the capsid protein (CP) of 294 amino acids, followed by a 3 untranslated region (UTR) of 237 nucleotides. The NIb and CP of WSSMV-C share 99 and 100% amino acid sequence identity with the corresponding proteins of WSSMV-French isolate (WSSMV-F), but only 89 and 77% with wheat yellow mosaic virus (WYMV-J), respectively. The 3UTR of RNA1 of WSSMV-C shares 94% nucleotide sequence identity with that of WSSMV-F but only 73% with WYMV-J and WYMV-Chinese isolate (WYMV-Chi). The results support the classification of WSSMV-C and WSSMV-F as strains of the same virus species which is distinct from WYMV. 相似文献
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A soil-borne wheat virus causing severe mosaic and stunting symptoms on wheat in China has been characterized. It had been considered to be soil-borne wheat mosaic virus (SBWMV) because of its rod-shaped virions and similarities to epidemiology and host range. In this study, the virions purified from infected wheat tissue were approximately 20 nm in diameter and of two lengths (140–160 nm and 280–300 nm), with a coat protein of 19 kDa and two RNA components of approximately 7 and 3.5 kb. A rabbit antiserum was produced against the virus and a serological relationship to SBWMV from the USA (Oklahoma) was demonstrated. However, the coat protein was not recognized by most monoclonal antibodies against Oklahoma SBWMV in either ELISA, ISEM or Western blot analysis, indicating epitope differences. In RT-PCR experiments the viral nucleotide sequences were significantly different from those of SBWMV, and this was confirmed by partial sequencing of the cloned PCR fragments generated from RNA1 ( c . 1100 nt) and RNA2 ( c . 1400 nt), which showed homologies of about 79 and 63%, respectively, to corresponding regions of SBWMV. Because of these significant differences in serology and nucleotide sequence it is suggested that it is a new furovirus for which the name Chinese wheat mosaic virus (CWMV) is proposed. 相似文献
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小麦品种对梭条花叶病的抗性研究 总被引:10,自引:0,他引:10
560份小麦品种(系)对小麦梭条花叶病的抗性表现可划分为高抗、中抗、中感和高感4种类型,其中高抗材料占7.3%,高感材料占87.7%。在抗病品种中,又可划分为抗介体、抗病毒两种类型。通过对8个S×S、6个R×R、16个S×R和12个R×S的抗性表现研究其抗性遗传。结果表明:(1)抗性特性为细胞核遗传,抗性基因为显性;(2)抗病毒基因品种中有3对显性基因控制;(3)抗介体性状由1对、2对或3对显性基因控制。4个单基因抗介体品种的抗性遗传被追踪研究。 相似文献
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ABSTRACT Soilborne wheat mosaic virus (SBWMV) and Wheat spindle streak mosaic virus (WSSMV) are putatively transmitted to small grains by the obligate parasite Polymyxa graminis, but little is known about environmental requirements for transmission and the resulting disease incidence. We planted susceptible wheat and triticale cultivars in field nurseries on different autumn dates in 3 years and observed the incidence of symptomatic plants in each following spring. Autumn postplanting environment explained most of the variation in disease caused by both viruses. Little apparent transmission, based on eventual symptom development, of either virus occurred after the average soil temperature dropped below 7 degrees C for the remainder of the winter. To forecast disease, we tested an SBWMV transmission model in the field, based on laboratory results, that predicts opportunities for transmission based on soil temperature and soil moisture being simultaneously conducive. This model was predictive of soilborne wheat mosaic in 2 of 3 years. Zoospores of P. graminis have optimal activity at temperatures similar to those in the SBWMV transmission model. Furthermore, the matric potential threshold (as it relates to waterfilled pore sizes) in the SBWMV transmission model fits well with P. graminis as vector given the size restrictions of P. graminis zoospores. Conditions optimal for SBWMV transmission in the laboratory were not conducive for WSSMV transmission in the laboratory or for wheat spindle streak mosaic development in the field. This differential response to environment after emergence, as indicated by disease symptoms, may be due to virus-specific environmental conditions required to establish systemic infection via the same vector. Alternatively, the differential response may have been due to the involvement of a different vector in our WSSMV nursery than in our SBWMV nursery. Our results suggest that, as a control tactic for SBWMV or WSSMV, earliness or lateness of planting is less important in determining virus transmission and disease than the specific postplanting environment. Improved models based on the postplanting environment might predict virus-induced losses of yield potential, and in some cases, growers might avoid purchase of spring inputs such as pesticides and fertilizer for fields with greatly reduced yield potential. 相似文献