Antagonism of Cucumber green mottle mosaic virus against Tomato leaf curl New Delhi virus in zucchini and cucumber

Tomato leaf curl New Delhi begomovirus (ToLCNDV) (genus Begomovirus, family Begomoviridae) and Cucumber green mottle mosaic tobamovirus (CGMMV) (genus Tobamovirus, family Virgaviridae) cause diseases in cucurbit crops and are of increasing importance in many parts of the world. Both virus species belong to different families and have different modes of transmission, but share common hosts. We examined single and mixed infections of these viruses in cucumber and zucchini. Cucumber plants single-infected with CGMMV and co-infected with ToLCNDV, produced identical tobamovirus-specific symptoms, and had reduced growth and number of fruits when compared with single ToLCNDV infections. Zucchini infected with CGMMV remained symptomless but when infected with ToLCNDV only, most developed severe begomovirus-specific symptoms, and had reduced vegetative development and less fruits. Fewer zucchini plants with ToLCNDV co-infected with CGMMV produced symptoms than those infected with ToLCNDV only. When inoculated with CGMMV, this tobamovirus accumulated at similar rates in single and mixed infections with ToLCNDV in cucumber as well as zucchini, whereas the begomovirus accumulated significantly less when co-infected with CGMMV. The results suggest the existence of an antagonistic effect of CGMMV against ToLCNDV accumulation in cucumber. Such effect would also explain similar differences in viral loads, the vegetative and reproductive development, and the reduced symptom expression in zucchini.     

Quantitative proteomics identifies 38 proteins that are differentially expressed in cucumber in response to cucumber green mottle mosaic virus infection

Background

Since it was first reported in 1935, Cucumber green mottle mosaic virus (CGMMV) has become a serious pathogen in a range of cucurbit crops. The virus is generally transmitted by propagation materials, and to date no effective chemical or cultural methods of control have been developed to combat its spread. The current study presents a preliminary analysis of the pathogenic mechanisms from the perspective of protein expression levels in an infected cucumber host, with the objective of elucidating the infection process and potential strategies to reduce both the economic and yield losses associated with CGMMV.

Methods

Isobaric tags for relative and absolute quantitation (iTRAQ) technology coupled with liquid chromatography-tandem mass spectrometric (LC-MS/MS) were used to identify the differentially expressed proteins in cucumber plants infected with CGMMV compared with mock-inoculated plants. The functions of the proteins were deduced by functional annotation and their involvement in metabolic processes explored by KEGG pathway analysis to identify their interactions during CGMMV infection, while their in vivo expression was further verified by qPCR.

Results

Infection by CGMMV altered both the expression level and absolute quantity of 38 proteins (fold change >0.6) in cucumber hosts. Of these, 23 were found to be up-regulated, while 15 were down-regulated. Gene ontology (GO) analysis revealed that 22 of the proteins had a combined function and were associated with molecular function (MF), biological process (BP) and cellular component (CC). Several other proteins had a dual function with 1, 7, and 2 proteins being associated with BP/CC, BP/MF, CC/MF, respectively. The remaining 3 proteins were only involved in MF. In addition, Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis identified 18 proteins that were involved in 13 separate metabolic pathways. These pathways were subsequently merged to generate three network diagrams illustrating the interactions between the different pathways, while qPCR was used to track the changes in expression levels of the proteins identified at 3 time points during CGMMV infection. Taken together these results greatly expand our understanding of the relationships between CGMMV and cucumber hosts.

Conclusions

The results of the study indicate that CGMMV infection significantly changes the physiology of cucumbers, affecting the expression levels of individual proteins as well as entire metabolic pathways. The bioinformatic analysis also identified several pathogenesis-related (PR) proteins that could be useful in the development of disease-resistant plants.

     

Argonaute 1 and 5 proteins play crucial roles in the defence against cucumber green mottle mosaic virus in watermelon

RNA silencing, a core part of plants' antiviral defence, requires the ARGONAUTE, DICER-like, and RNA-dependent RNA polymerase proteins. However, how these proteins contribute to watermelon's RNA interference (RNAi) pathway response to cucumber green mottle mosaic virus (CGMMV) has not been characterized. Here, we identify seven ClAGO, four ClDCL, and 11 ClRDR genes in watermelon and analyse their expression profiles when infected with CGMMV. ClAGO1 and ClAGO5 expression levels were highly induced by CGMMV infection. The results of ClAGO1 and ClAGO5 overexpression and silencing experiments suggest that these genes play central roles in watermelon's antiviral defence. Furthermore, co-immunoprecipitation and bimolecular fluorescence complementation experiments showed that ClAGO1 interacts with ClAGO5 in vivo, suggesting that ClAGO1 and ClAGO5 co-regulate watermelon defence against CGMMV infection. We also identified the ethylene response factor (ERF) binding site in the promoters of the ClAGO1 and ClAGO5 genes, and ethylene (ETH) treatment significantly increased ClAGO5 expression. Two ERF genes (Cla97C08G147180 and Cla97C06G122830) closely related to ClAGO5 expression were identified using co-expression analysis. Subcellular localization revealed that two ERFs and ClAGO5 predominantly localize at the nucleus, suggesting that enhancement of resistance to CGMMV by ETH is probably achieved through ClAGO5 but not ClAGO1. Our findings reveal aspects of the mechanisms underlying RNA silencing in watermelon against CGMMV.     

Interaction between cucumber green mottle mosaic virus MP and CP promotes virus systemic infection

The movement protein (MP) and coat protein (CP) of tobamoviruses play critical roles in viral cell-to-cell and long-distance movement, respectively. Cucumber green mottle mosaic virus (CGMMV) is a member of the genus Tobamovirus. The functions of CGMMV MP and CP during viral infection remain largely unclear. Here, we show that CGMMV MP can interact with CP in vivo, and the amino acids at positions 79–128 in MP are vital for the MP–CP interaction. To confirm this finding, we mutated five conserved residues within the residue 79–128 region and six other conserved residues flanking this region, followed by in vivo interaction assays. The results showed that the conserved threonine residue at the position 107 in MP (MP^T107) is important for the MP–CP interaction. Substitution of T107 with alanine (MP^T107A) delayed CGMMV systemic infection in Nicotiana benthamiana plants, but increased CGMMV local accumulation. Substitutions of another 10 conserved residues, not responsible for the MP–CP interaction, with alanine inhibited or abolished CGMMV systemic infection, suggesting that these 10 conserved residues are possibly required for the MP movement function through a CP-independent manner. Moreover, two movement function-associated point mutants (MP^F17A and MP^D97A) failed to cause systemic infection in plants without impacting on the MP–CP interaction. Furthermore, we have found that co-expression of CGMMV MP and CP increased CP accumulation independent of the interaction. MP and CP interaction inhibits the salicylic acid-associated defence response at an early infection stage. Taken together, we propose that the suppression of host antiviral defence through the MP–CP interaction facilitates virus systemic infection.     

黄瓜资源对黄瓜绿斑驳病毒广东分离物的抗性水平鉴定

【背景】黄瓜绿斑驳花叶病毒(Cucumber green mottle mosaic virus,CGMMV)是严重威胁葫芦科作物生产的毁灭性病原之一,该病毒已入侵我国十多个省份,危害西瓜、黄瓜等作物并造成严重的经济损失。早在2009年广东即发现CGMMV为害西瓜和黄瓜,但黄瓜等葫芦科作物对其抗性情况尚不清楚。【方法】采用人工机械摩擦接种方法,测定了14份黄瓜种质资源对CGMMV广东分离物的抗性水平。【结果】从广东葫芦病样中分离获得CGMMV,该病毒分离物MP基因序列与国内报道的各分离物同源率均在99%以上;14份黄瓜种质资源对该病毒分离物均表现为感病。【结论与意义】广东主要黄瓜资源对CGMMV均表现为感病,这为我省防控该病毒病提供了科学依据,也为黄瓜抗病育种提供了指导。     

Transmission Efficiency of Cucumber green mottle mosaic virus via Seeds,Soil, Pruning and Irrigation Water

Cucumber green mottle mosaic virus (CGMMV; genus Tobamovirus) infects frequently the grafted watermelon and is widely distributed in China. Investigating the transmission modes and their efficiency is urgently needed to understand the factors contributing to the epidemiology of this viral disease. In the present study, we found that the occurrence of CGMMV in a bottle gourd seed production base reached 100%, while the contamination rate and transmission rate were 100 and 0.92%, respectively. The bottle gourd plants showed obvious mottle symptom on leaves starting 36 days after seed sowing. The long latent period of CGMMV in seedlings implies a potential risk to use contaminated seeds in the production of grafted watermelon. This virus could overwinter in soil with debris of infected plants, and the infection rate of CGMMV from contaminated soils was 10.30%. CGMMV could be transmitted from infected watermelon plants to healthy ones by pruning at least to the ninth plant during the whole growing season. The transmission distance was 1.87 m by drip irrigation and 2.31 m by flow irrigation. This study suggested that contaminated seeds, contaminated soil, pruning and irrigation could transmit CGMMV at different efficiency, and all contribute to the epidemiology of CGMMV.     

Transgenic watermelon rootstock resistant to CGMMV (cucumber green mottle mosaic virus) infection

In watermelon, grafting of seedlings to rootstocks is necessary because watermelon roots are less viable than the rootstock. Moreover, commercially important watermelon varieties require disease-resistant rootstocks to reduce total watermelon yield losses due to infection with viruses such as cucumber green mottle mosaic virus (CGMMV). Therefore, we undertook to develop a CGMMV-resistant watermelon rootstock using a cDNA encoding the CGMMV coat protein gene (CGMMV-CP), and successfully transformed a watermelon rootstock named gongdae. The transformation rate was as low as 0.1–0.3%, depending on the transformation method used (ordinary co-culture vs injection, respectively). However, watermelon transformation was reproducibly and reliably achieved using these two methods. Southern blot analysis confirmed that the CGMMV-CP gene was inserted into different locations in the genome either singly or multiple copies. Resistance testing against CGMMV showed that 10 plants among 140 T₁ plants were resistant to CGMMV infection. This is the first report of the development by genetic engineering of watermelons resistant to CGMMV infection.     

Transgenic <Emphasis Type="Italic">Nicotiana benthamiana</Emphasis> plants resistant to cucumber green mottle mosaic virus based on RNA silencing

RNA silencing technology was used to confer resistance to cucumber green mottle mosaic virus (CGMMV). Nicotiana benthamiana was transformed with a transgene designed to produce an inverted repeat RNA containing CGMMV-coat protein gene (CP) sequences, which were separated by an intron sequence, under the control of the cauliflower mosaic virus 35S promoter. We attempted to confirm the resistance of seven independent transgenic lines; five lines showed resistance to CGMMV infection. The systemic spread of virus was prevented after the inoculation of CGMMV, and the CP-specific short interfering RNA (siRNA) was detected in resistant lines. Thus, the resistance against CGMMV through RNA silencing is strong and efficient.     

Genetic diversity of cucumber green mottle mosaic virus (CGMMV) infecting cucurbits

Cucumber green mottle mosaic virus (CGMMV), a well-known Tobamovirus, infects cucurbits across the globe. To determine its current status, molecular characterization, genetic recombination, gene flow and selection pressure, 10 districts from Punjab province of Pakistan were surveyed and a total of 2561 cucurbits samples were collected during 2019–2020. These samples were subjected to virus-specific double antibody sandwich-enzyme linked immunosorbent assay (DAS-ELISA) for the detection of CGMMV. The results revealed that viral disease was prevalent in all surveyed districts of Punjab with an overall 25.69% disease incidence. ELISA positive samples were further confirmed through RT-PCR and sequencing of coat protein (CP) cistron. Sequence analysis showed that the present studied CGMMV isolates have 96–99.5% nucleotide and 94.40–99.50% amino acid identities with those already available in GenBank. Phylogenetic analysis also revealed that understudied isolates were closely related with South Korean (AB369274) and Japanese (V01551) isolates and clustered in a separate clad. Sequence polymorphisms were observed in 663 bp of sequence within 31 CGMMV isolates covering complete CP gene. Total number of sites were 662, of which 610 and 52 sites were monomorphic and polymorphic (segregating), respectively. Of these polymorphic, 24 were singleton variable and 28 were parsimony informative. Overall nucleotide diversity (π) in all the understudied 31 isolates was 0.00010 while a total of 1 InDel event was observed and InDel Diversity (k) was 0.065. Haplotype diversity analysis revealed that there was a total 29 haplotypes with haplotype diversity (Hd) of 0.993458 in all the 31 isolates which provide evidence of less diversity among Pakistani isolates. The statistical analysis revealed the values 2.568, 5.31304 and 4.86698 of Tajima's D, Fu, & Li’s F* and D*, respectively, which witnessed the population of CGMMV was under balanced selection pressure.     

Intrageneric cross-reactivity of monospecific rabbit antisera against venoms of the medically most important Bitis spp. and Echis spp. African snakes

BackgroundSnakebite envenomation exerts a heavy toll in sub-Saharan Africa. The design and production of effective polyspecific antivenoms for this region demand a better understanding of the immunological characteristics of the different venoms from the most medically important snakes, to select the most appropriate venom combinations for generating antivenoms of wide neutralizing scope. Bitis spp. and Echis spp. represent the most important viperid snake genera in Africa.Methodology/Principal findingsEight rabbit-derived monospecific antisera were raised against the venoms of four species of Bitis spp. and four species of Echis spp. The effects of immunization in the rabbits were assessed, as well as the development of antibody titers, as judged by immunochemical assays and neutralization of lethal, hemorrhagic, and in vitro coagulant effects. At the end of immunizations, local and pulmonary hemorrhage, together with slight increments in the plasma activity of creatine kinase (CK), were observed owing to the action of hemorrhagic and myotoxic venom components. Immunologic analyses revealed a considerable extent of cross-reactivity of monospecific antisera against heterologous venoms within each genus, although some antisera provided a more extensive cross-reactivity than others. The venoms that generated antisera with the broadest coverage were those of Bitis gabonica and B. rhinoceros within Bitis spp. and Echis leucogaster within Echis spp.Conclusions/SignificanceThe methodology followed in this study provides a rational basis for the selection of the best combination of venoms for generating antivenoms of high cross-reactivity against viperid venoms in sub-Saharan Africa. Results suggest that the venoms of B. gabonica, B. rhinoceros, and E. leucogaster generate antisera with the broadest cross-reactivity within their genera. These experimental results in rabbits need to be translated to large animals used in antivenom production to assess whether these predictions are reproduced in horses or sheep.     

Mapping of neurons in the central nervous system of the guinea pig by use of antisera specific to the molluscan neuropeptide FMRFamide

Summary Immunoreactive neurons were mapped in the central nervous system of colchicine-treated and untreated guinea pigs with the use of two antisera to the molluscan neuropeptide FMRFamide ¹. These antisera were especially selected for their incapability to react with peptides of the pancreatic polypeptide family. Only one group of perikarya was stained by both antisera; this group was mainly located in the nucleus dorsomedialis hypothalami and extended to the nucleus paraventricularis and nucleus periventricularis hypothalami. The perikarya were found to project fibers to all regions of the hypothalamus, to the septum, nucleus proprius striae terminalis, nucleus paraventricularis thalami, nucleus centralis thalami, nucleus reuniens, medial, central and basal amygdala, area praetectalis, area tegmentalis ventralis of Tsai, substantia grisea centralis mesencephali, formatio reticularis mesencephali, nucleus centralis superior, locus coeruleus, nuclei parabrachiales, nucleus raphe magnus, A 5-region, vagus-solitarius complex, ventral medulla, nucleus spinalis nervi trigemini, and substantia gelatinosa of the spinal cord. In many brain regions FMRFamide-immunoreactive processes were found in close contact with blood vessels.Abbreviations of Amino Acids D aspartic acid - F phenylalanine - G glycine - H histidine - L leucine - M methionine - P proline - R arginine - V valine - W tryptophan - Y tyrosine     

Characteristics of antibodies to the epidermal growth factor receptor-kinase

Polyclonal antibodies to different antigenic forms of the epidermal growth factor (EGF) receptor-kinase from human A-431 cells have been produced, and their properties have been characterized and compared. Biochemically active receptor-kinase purified by affinity chromatography was employed as one type of antigen. Denatured receptor-kinase prepared by sodium dodecyl sulfate-gel electrophoresis of the affinity-purified receptor was used as the second type of antigen. Animals immunized with either type of antigen produced antibody capable of immunoprecipitating the receptor-kinase molecule. Antibodies produced in response to the biochemically active antigenic form of the receptor-kinase are capable of blocking ¹²⁵I-EGF binding to the receptor and inhibited EGF-stimulated biological responses. These antisera are not species specific in their ability to inhibit growth-factor binding to the EGF receptor of various mammalian cells. However, these rabbit antisera were unable to inhibit ¹²⁵I-EGF binding to rabbit cells. Although antisera produced in response to the denatured receptor-kinase molecule are not able to block ¹²⁵I-EGF binding or EGF-stimulated biological responses, they are particularly efficient for the immunoprecipitation of solubilized ¹²⁵I-EGF:receptor complexes. None of the antisera contain antibodies capable of interfering with basal receptor-kinase phosphorylation activity. Although each of the antisera immunoprecipitated this kinase activity, none of the antisera contained antibody which served as a phosphorylation substrate for the EGF receptor-kinase in contrast to the immunoglobulins present antisera to the src gene product of the Rous sarcoma virus.     

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.     

The presence of antibodies to human dopamine-β-hydroxylase in commercially available antisera

Three criteria have been used to demonstrate the presence of antibodies to human dopamine-β-hydroxylase in commercially available antisera directed against various human serum fractions. These criteria are the inhibition of enzyme activity, complement fixation and binding of ¹²⁵I-labelled dopamine-β-hydroxylase to the immobilized antisera. The level of antibody present in some of these antisera was sufficient to allow their use in the radioimmunoassay of the enzyme. The possibility of other useful antibodies occurring in these and similar antisera is suggested.     

<Emphasis Type="Italic">Stenotrophomonas maltophilia</Emphasis> HW2 enhanced cucumber resistance against cucumber green mottle mosaic virus

Cucumber green mottle mosaic virus (CGMMV) is a major limiting factor in the production of cucumber plants worldwide. In the present study, we use plant growth-promoting rhizobacteria (PGPR) to control this virus effectively. Stenotrophomonas maltophilia HW2 was isolated from healthy cucumber root, exhibited a good biocontrol efficacy against CGMMV. Here, it is documented that 20 d after virus inoculation, the biocontrol efficacy of HW2 reached 52.61%. HW2 can effectively colonize in cucumber rhizosphere, and also promoted cucumber plants growth. We also examined the effect of HW2 on viral replication and its mechanism. Compared with the control, HW2 pre-treated plants could delay virus replication for more than 3 d and inhibit viral protein genes (CP, MP, Rep) expression in the cucumber leaf. The expression of antioxidant enzyme genes (SOD and CAT) and defense-related genes (PR1 and PR5) were quickly induced by HW2. These results suggest that HW2 induced plant defense responses to CGMMV by increasing the expression of defense response genes. We report for the first time that Stenotrophomonas maltophilia improved cucumber resistance against CGMMV, which highlights the applying of PGPR on controlling of virus diseases.     

In vitro maturation of ovine fetal adrenal cells adenylate cyclase: corticotropin-dependent and independent development of the response to corticotropin

Polyclonal antibodies against an estrogen induced 52 K protein released by human breast cancer cells have been developed by injecting rabbits with a crude cellular pellet of MCF₇ human breast cancer cells. The rabbit antisera have been tested against [³⁵S]Methionine labelled proteins released by the MCF₇ cells followed by separation of the immune complexes with Protein A Sepharose. In spite of their low specificity and titer, these antisera allowed us to investigate the release of the 52 K protein $\text{in vitro}$ by other mammary cancer or normal cells.     

Inhibition of sea urchin sperm acrosome reaction by antibodies directed against two sperm membrane proteins : Characterization and mechanism of action

The egg jelly-induced acrosome reaction is inhibited by polyclonal antibodies raised against either of two S. purpuratus sperm-membrane proteins, of M_r 80 and 210 kD. Although the two antigens used have dissimilar CNBr peptide maps, antisera produced against each of them cross-react with both proteins. Inhibition of the egg jelly-induced acrosome reaction by the antisera is bypassed by a combination of the ionophores monensin and A23187. This result, along with data showing that the antisera inhibit egg jelly-induced uptake of ⁴⁵Ca²⁺, suggests that the antisera may block both Ca²⁺ uptake and Na⁺/H⁺ exchange in the sperm. The acrosome reaction blockage appears to be caused by the same component of the polyclonal sera responsible for cross-reaction; consequently, these antisera cannot be used to determine whether one or both of the crossreacting proteins modulate a critical step in the acrosome reaction.