Characterization of Synergy between Cucumber mosaic virus and Tobacco necrosis virus in Nicotiana benthamiana

Mixed infections of Nicotiana benthamiana plants by Cucumber mosaic virus (CMV) and Tobacco necrosis virus (TNV) exhibit a synergistic interaction and result in symptom enhancement. Accumulation of CMV(+) RNA as well as capsid protein (CP) in mixed infection was considerably higher than that of singly‐infected plants. There was also a slight increase in TNV(+) RNA and CP levels in doubly infected plants. Synergistic infection by CMV‐ and TNV‐induced higher increase in the levels of malonyldialdehyde, hydrogen peroxide (H₂O₂) and more decline in the activities of catalase than singly infected ones. Both peroxidase and superoxide dismutase activities increased rapidly for the first 10 days post inoculation (dpi) in doubly‐infected plants and then declined, whereas the enzyme activities continued to increase after 10 dpi in singly infected plants and had higher enzyme activities in the late stages than that of co‐infected plants. These results suggest that synergistic infection by CMV and TNV produced severes oxidative stress in N. benthamiana plants and the synergy between the two viruses was mutual.     

Two amino acids on 2a polymerase of Cucumber mosaic virus co-determine hypersensitive response on legumes

Thehypersensitiveresponse(HR)isoneofmostextensivelystudiedresistantreactionsdur-ingtheincompatibleinteractionbetweenplantandpathogen.Inthisprocess,plantinitiatesdiversedefensesystemssuchasdepositionofligninandcalloseinthecellwall,productionofphytoalex-ins,expressionofpathogenesis-relatedproteins(PRprotein)andactivationofprogrammedcelldeath(PCD),whichresultinlimitationofthepathogenwithintheinitialinfectionsites[1,2].TheHRinducedbybacteria,fungiandvirusesusuallyactivatesasystemicacquiredresis…     

Coat protein-mediated resistance against an Indian isolate of the Cucumber mosaic virus subgroup IB in Nicotiana benthamiana

Coat protein (CP) -mediated resistance against an Indian isolate of the Cucumber mosaic virus (CMV) subgroup IB was demonstrated in transgenic lines of Nicotiana benthamiana through Agrobacterium tumefaciens-mediated transformation. Out of the fourteen independently transformed lines developed, two lines were tested for resistance against CMV by challenge inoculations. The transgenic lines exhibiting complete resistance remained symptomless throughout life and showed reduced or no virus accumulation in their systemic leaves after virus challenge. These lines also showed virus resistance against two closely related strains of CMV. This is the first report of CP-mediated transgenic resistance against a CMV subgroup IB member isolated from India.     

Two amino acids on 2a polymerase of<Emphasis Type="Italic">Cucumber mosaic virus</Emphasis> co-determine hypersensitive response on legumes

The hypersensitive response (HR) is one of the most important defense responses during the incompatible interaction between plant and pathogen. The viral determinant of HR on legumes induced byCucumber mosaic virus (CMV) was studied, and our previous results showed that 243 nucleotides on 2a polymerase gene of CMV were involved in the induction of HR on legumes. With further analysis of the nucleotides and amino acids in this region, the amino acids Phe and Ala at positions 631 and 641 in the 2a polymerase of CMV-Fny, a legume local necrotic strain, were specifically exchanged to Tyr and Ser, respectively and simultaneously, in the 2a polymerase of CMV-P1, a legume systemic infecting strain, and three point mutants were constructed. The point mutant Fny-F/Y (Phe631 to Tyr) induced large necrotic lesions instead of pinpoint lesions, and the size of lesions could enlarge from initial sites. The point mutant Fny-A/S (Ala641 to Ser) induced similar symptoms as CMV-Fny. The double-point mutant Fny-FA/YS (Phe631 to Tyr and Ala641 to Ser) infected the legumes systemically without HR. These data indicate that the induction of HR on legumes is co-determined by two amino acids at positions 631 and 641 in CMV 2a polymerase.     

Biological and Molecular Characterization of Taiwanese Isolates of Cucumber mosaic virus Associated with Banana Mosaic Disease

Banana mosaic disease (BMD) caused by Cucumber mosaic virus (CMV) has become an important threat to the banana industry. We collected and characterized 10 CMV isolates associated with BMD in Taiwan and compared their biological characteristics and coat protein sequences. The isolates fell into four pathotypes on the basis of the symptoms they induce on banana, Nicotiana glutinosa and Vigna unguiculata (cowpea). Double-stranded RNA analysis revealed that the different pathotypes are not related to the presence of CMV satellite RNA. Phylogenetic analysis of worldwide CMV coat protein sequences revealed that among the currently known CMV subgroups IA, IB and II, subgroup IB is phylogenetically unresolved. Our CMV isolates form a new subgroup, IT, within subgroup I. In addition, we resolved another new CMV subgroup, IS, within subgroup I. The analysis also revealed that isolates within different subgroups can infect the banana.     

Molecular Characterization and Distribution of Cucumber green mottle mosaic virus in China

Cucumber green mottle mosaic virus (CGMMV) is an emerging virus on watermelon in China. We report here the almost complete nucleotide sequence and the characterization of the genome of a Chinese isolate (CGMMV-LN). Nucleotide sequence comparisons showed CGMMV-LN is closely related to CGMMV-KOM, with 99.4% identity. On the basis of the nucleotide sequence, a digoxigenin-labelled cDNA probe CG, complementary to the replicase gene region of CGMMV was synthesized. The specificity and sensitivity of the probe was tested. The detection limit of the method was equivalent to 0.8 μg fresh tissues infected by CGMMV. Two hundreds and eighteen watermelon samples collected from different regions in China during 2006–2007 were tested by this method. The distribution pattern of CGMMV in China during these years was revealed. The virus has spread in five provinces of China so far, including Liaoning, Hebei, Guangdong, Hubei and Shandong and might be an increasing tendency, which provides important information for CGMMV control in China.     

Expression of coat protein gene of Cucumber mosaic virus (CMV-subgroup IA) Gladiolus isolate in Nicotiana tabacum

The coat protein (CP)-mediated resistance against Cucumber mosaic virus (CMV) subgroup IA was developed in transgenic lines of Nicotiana tabacum cv. Petit Havana using Agrobacterium tumefaciens-mediated transformation. Ten independently transformed lines have developed, four of which were tested for resistance against CMV using virus challenge inoculations. The transgenic lines exhibiting complete resistance remained healthy and symptomless in their life span and showed reduced or no virus accumulation in their systemic leaves after virus challenge inoculation. These transgenic lines also showed resistance against CMV strains which are not closely related to CMV-Gladiolus strains. This is the first report of CP-mediated transgenic resistance against a CMV subgroup IA member isolated from India showing resistance to all CMV strains occurring in the same vicinity.     

Alarming increase in the incidence of Cucumber mosaic virus in cowpea (Vigna unguiculata (L.) Walp.) in northern Nigeria

Cowpea plays a key nutritional role in the diet of the Nigerian people. Viral diseases are a major limitation to cowpea production worldwide, and thus, constant viral surveillance is crucial for monitoring and management purposes. In this study, cowpea leaf samples from fields in three northern Nigeria states, Kano, Kaduna and Niger, were tested to determine the status of six common viruses previously reported in these cowpea-producing states following the release of virus-resistant varieties. Cowpea aphid-borne mosaic virus (CABMV), Blackeye cowpea mosaic virus (BICMV), Cowpea mottle virus, Southern bean mosaic virus and Cucumber mosaic virus (CMV) were detected. Cowpea yellow mosaic virus, which was previously reported in all three states, was not detected in any of the samples tested, while CMV that was previously regarded as unimportant to cowpea production in Nigeria had the highest incidence in all three states, and the overall highest incidence of 58.8%, while CABMV had the lowest incidence (7.5%). CMV was also present in seven of the ten mixed infection combinations detected. Dual infection of CMV and BICMV, which often results in cowpea stunt, the most devastating cowpea disease in the USA, was the most frequently detected mixed infection (28.1%) and was detected in all three states. This observed elevation in CMV infection in cowpea must be closely monitored and swiftly managed to avert possible devastating crop yield losses.     

New Necrotic Isolates of Pepino mosaic virus Representing the Ch2 Genotype

New necrotic isolates of Pepino mosaic virus (PepMV) were found in 2007 infecting greenhouse tomato plants in Poland. The isolates differ from previously identified PepMV isolates in host range and symptomatology. They induce severe necrosis on tomato plants ( Solanum lycopersicum ) and local necrotic lesions on Datura inoxia . Phylogenetic analysis, based on three distinct regions, triple gene block 1, the coat protein gene and a part of polymerase gene, revealed that the new necrotic isolates share high nucleotide sequence identity with isolates of the Ch2 genotype. This is the first report describing a necrotic type of PepMV of the Ch2 genotype.     

两株黄瓜花叶病毒卫星RNA的竞争与共存研究

通过体外转录方法 ,将大小分别为 36 9nt和 385nt的 2个黄瓜花叶病毒 (Cucumbermosaicvirus,CMV)的卫星RNAYi和Yns共同与不含卫星的辅助病毒株CMV_CNa进行假重组 ,接种CMV系统寄主心叶烟。结果表明 :在接种5d的接种叶上同时检测到卫星RNA_Yi和卫星RNA_Yns;在系统叶上 ,接种 5d和 10d亦可同时检测到 2株卫星 ;但接种 15d ,在系统叶组织中只检测到卫星RNA_Yi。再将接种 5d的接种叶扩大接种到几种不同的指示植物后 ,经dsRNA抽提 ,也只获得 1条与卫星RNA_Yi大小相符的条带。通过假重组病毒株中分别获得卫星RNA并测序 ,确定2个卫星RNA的序列没有变化。卫星RNA_Yns和Yi在辅助病毒CMV_CNa作用下 ,表现出明显的竞争性 ,它们在辅助病毒中不能形成稳定的共存关系。     

cmv1 is a gate for Cucumber mosaic virus transport from bundle sheath cells to phloem in melon

Cucumber mosaic virus (CMV) has the broadest host range among plant viruses, causing enormous losses in agriculture. In melon, strains of subgroup II are unable to establish a systemic infection in the near‐isogenic line SC12‐1‐99, which carries the recessive resistance gene cmv1 from the accession PI 161375, cultivar ‘Songwhan Charmi’. Strains of subgroup I overcome cmv1 resistance in a manner dependent on the movement protein. We characterized the resistance conferred by cmv1 and established that CMV‐LS (subgroup II) can move from cell to cell up to the veins in the inoculated leaf, but cannot enter the phloem. Immunogold labelling at transmission electron microscopy level showed that CMV‐LS remains restricted to the bundle sheath (BS) cells in the resistant line, and does not invade vascular parenchyma or intermediary cells, whereas, in the susceptible line ‘Piel de Sapo’ (PS), the virus invades all vein cell types. These observations indicate that the resistant allele of cmv1 restricts systemic infection in a virus strain‐ and cell type‐specific manner by acting as an important gatekeeper for virus progression from BS cells to phloem cells. Graft inoculation experiments showed that CMV‐LS cannot move from the infected PS stock into the resistant cmv1 scion, thus suggesting an additional role for cmv1 related to CMV transport within or exit from the phloem. The characterization of this new form of recessive resistance, based on a restriction of virus systemic movement, opens up the possibility to design alternative approaches for breeding strategies in melon.     

Over-expression of a scopoletin glucosyltransferase in Nicotiana tabacum leads to precocious lesion formation during the hypersensitive response to tobacco mosaic virus but does not affect virus resistance

Nicotiana tabacum Togt encodes a scopoletin glucosyltransferase (UDPglucose:scopoletin O -beta-D-glucosyltrans- ferase, EC 2.4.1.128) known to act in vitro on many different substrates including the 6-methoxy-7-hydroxy- coumarin scopoletin. This phenolic compound accumulates in vast amounts, essentially in its glucosylated form scopolin, in tobacco during the hypersensitive response (HR) to tobacco mosaic virus (TMV). To identify the physiological role of this pathogen-inducible UDP-Glc glucosyltransferase (UGT), we generated TOGT over-expressing transgenic plants. Although no endogenous scopoletin or scopolin could be detected before infection, the accumulation of both the aglycone and the glucoside was found to be 2-fold higher in transgenic plants after inoculation with TMV than in wild-type plants. Scopoletin UGT activity in plants over-expressing Togt was significantly higher during the HR than in control plants. This up-regulated activity was associated with a strong increase of the bright blue fluorescence surrounding the HR-necrotic lesions under UV light, which is known to correlate with scopoletin and scopolin abundance. Necrosis appeared sooner in transgenic plants and lesions developed faster, suggesting an accelerated HR. Unexpectedly, the viral content in each lesion was not significantly different in transgenic and in wild-type plants. These results are discussed in relation to the role of TOGT as the major UDP-Glc: scopoletin glucosyltransferase and to the importance of scopoletin accumulation during the HR.     

Serological detection of Cucumber mosaic virus on some important host crops in the north region of Iran

Plant virus diseases cause major losses in agricultural and horticultural products, especially in tropical and subtropical regions. The first step to manage these diseases is detecting, identifying and determining the pathogen characteristics. Cucumber mosaic disease is one of the most prevalent and damaging plant diseases in the world which is caused by Cucumber mosaic virus (CMV). Each year, this virus causes yield decreasing and substantial economic damages in its host plants worldwide including the north of Iran. In order to study and identify CMV, 935 leaf samples were collected based on typical symptoms from 10 crops (tomato, pea, tobacco, soybean, watermelon, broad bean, squash, cucumber, eggplant and lettuce) in different regions of Golestan and Mazandaran provinces (north of Iran) during 2009–2010. Suspicious samples were analysed by DAS-ELISA and polyclonal antibodies. The results showed that 275 samples (29.4%) were infected by CMV. Between these hosts, the highest and the lowest CMV infection was associated to watermelon (62.44%) and lettuce (0%), respectively. Among sampling locations, Behshahr (100%) and Minoodasht (3.47%) showed the maximum and minimum infection, respectively.     

不同CMV分离物侵染寄主的超微结构变化

应用电镜观察了黄瓜花叶病毒ＣＭＶ不同分离物侵染寄主的细胞超微结构变化。来自一患红（Ｓａｌｖｉａｓｐｌｅｎｄｅｎｓ）的不含卫星ＲＮＡ分离物Ｍ－２２侵染心叶烟,病毒粒子散布于细胞质,在液泡中形成大片病毒粒子结果,液泡膜边缘产生小泡结构,完整的病毒粒子穿过胞间连丝在细胞间运转,胞间连丝中央部分有扩张现象。     

Pathogenesis-related protein b1' in plants and in cell suspension cultures of Nicotiana glutinosa Nicotiana debneyi and an amphidiploid cross (N. glutinosa×N. debneyi)

The expression of PR-protein b₁' in plants and cell suspension cultures of Nicotiana glutinosa L., Nicotiana debneyi Domin, and an amphidiploid cross of these two species, a hybrid, has been investigated. An enzyme linked immunosorbent assay has been employed to determine the concentration of PR-protein b₁' in extracts. The PR-Protein b₁' was constitutively produced in intact plants of the hybrid (around 25 μg g⁻¹ leaf tissue), while only trace amounts of the protein (< 50 ng g⁻¹ leaf tissue) were found in plants of the two parents. In suspension culture, the concentrations of PR-protein b₁' were 8, 0.4 and less than 0.1 mg l⁻¹ medium for the hybrid. N. debneyi and N. glutinosa , respectively. Only trace amounts of the protein were found in extracts from cells. Seven days after infection by tobacco mosaic virus (TMV) the concentration of PR-protein b₁' in leaves of N. glutinosa was 22.5 μg g⁻¹ leaf tissue. In N. debneyi and the hybrid a relatively limited induction of PR-protein b₁' by TMV was observed. The influence of various phenoxyacetic acids on the expression of PR-protein b₁' in the 3 cell cultures has been investigated. Cultures of N. glutinosa responded to treatments with 2,4-D and 2,4,5-T while cultures of N. debneyi and the hybrid were essentially unaffected. In the former case a concentration of 5–10 mg l⁻¹ 2,4,5-T was optimal and cells were most responsive to the treatment 4 days after subcultivation. The concentration of PR-protein b₁' in elicited cell cultures of N. glutinosa was 2 to 4 mg l⁻¹ medium.     

Study of multiplication of cucumber mosaic virus in susceptible and resistant Capsicum annuuum lines

A previous survey on pepper lines (Capsicum annuum L.) indicated that a susceptible cultivar, Yolo Wonder, reacted to cucumber mosaic virus (CMV) by producing a systemic yellow mosaic. By contrast, CMV caused no symptoms on lines Perennial and Vania. The virus is recoverable from the uninoculated leaves of Perennial, while in Vania CMV is restricted to the inoculated leaves. To interpret these phenomena, a comparative study on CMV multiplication rates, yield, specific infectivity and relative proportion of RNAs was made in the inoculated leaves of the three pepper varieties. The rate of CMV multiplication, as estimated by the double antibody sandwich form of enzyme-linked immu-nosorbent assay, was lower in Perennial than in Vania or Yolo Wonder. The yield of virus purified from Perennial was very low when compared with Vania or Yolo Wonder. The specific infectivity of the virus extracted from Perennial was less than that from Vania or Yolo Wonder. These results suggest that Perennial is resistant to CMV multiplication, while restriction of the virus in inoculated leaves of Vania is not due to the inhibition of the virus replication. However, polyacrylamide gel electrophoresis revealed that the RNA profiles of CMV purified from the three pepper lines were similar.     

Necrotic Lesions as Unusual Symptoms of Ring Rot in the Potato Leaves

Test-tube plants and suspension cell cultures of two cultivars of the potato (Solanum tuberosum L.) differing in their resistance to ring rot caused by Clavibacter michiganensis subsp. sepedonicus and six strains of this bacterium were used to test the relationship between the virulence, the leaf ability to adsorb bacteria, and the symptoms of the disease. In addition to chlorosis and drying, heavy inoculation with virulent strains caused unusual symptoms, such as leaf necrotic lesions. In the resistant cultivar, the necrotic lesions were predominantly local, whereas in the susceptible cultivar, they expanded. Unlike the susceptible cultivar, suspension cells of the resistant cultivar weakly adhered bacteria of the tested strains. Bacteria entered the plants through the leaf stomata. The sorption and penetration were much more pronounced in the susceptible cultivar. It was concluded that strain virulence varies depending on the conditions of inoculation, and uncharacteristic symptoms (necrotic lesions) arise. The local necrotic lesions are considered a hypersensitive response, and exopolysaccharides of the pathogen as the factors of virulence.