Interaction of Plum Pox Virus with Specific Colloidal Gold-Labeled Antibodies and Development of Immunochromatographic Assay of the Virus

Two monoclonal antibodies (mABs) raised against plum pox virus (PPV) were shown to recognize its D, M, and C strains. Conjugates of the antibodies with colloidal gold (CG) nanoparticles averaging 26 nm in diameter were synthesized. The binding constants of PPV with both the native and conjugated mABs were determined using a Biacore X device. The complexes between the CG-mAB conjugates and plum pox virions were examined by means of transmission electron and atomic force microscopy. Using the conjugates with optimal component ratio, an express immunochromatographic assay of PPV was developed with a detection limit of 3 ng/ml and duration of 10 min. The assay was tested for PPV detection in sam- ples of stone fruit tree leaves and demonstrated a good compatibility with the data obtained by “sandwich”-ELISA. The developed assay can be used in the field and applied for monitoring viral infection and for quarantine purposes.     

Molecular Cloning of DNA Complementary to the RNA-Genome of Plum Pox Virus (PPV)

Genomic RNA of plum pox virus (PPV) was used as a template for the synthesis of complementary DNA (cDNA). The generated cDNA molecules were subsequently cloned into pBR 322. A physical map covering 9700 bases of the PPV genome was constructed from 8, clones by hybridization and restriction endonuclease digestion. Clone pPPV-NAT 309, starting at the 3′-end, with an 866 bp insert was used in Northern- and Dot-hybridizations for the detection of single-stranded viral RNA in total nucleic acid as well as in sap preparations of PPV infected Nicotiana clevelandii. The nucleotide sequence of this clone was determined, the amino acid sequence of the coat protein C-terminal part was deduced and compared with four other coat proteins of potyviruses.     

Peroxidase isozyme analysis of factors involved in development of symptoms in Nicotiana clevelandii infected by plum pox virus

Isozyme profiles of peroxidases (POX, EC 1.11.1.7) have been determined in leaves at different developmental stages as well as in other tissues of Nicotiana clevelandii . Modifications of the POX profiles associated with infection by plum pox virus and their relationship to senescence and wounding have also been determined. Systemically infected leaves displaying symptoms of infection showed a pattern highly similar to that of old leaves. Extensive alterations in the POX profile were observed in the inoculated leaves, and both ageing and wounding seemed to contribute to these transformations. The isozyme profile of POX after ethrel treatments suggested that ethylene could be involved in the senescence reaction produced by the virus infection.     

Quantitative trait analysis of resistance to plum pox virus in the apricot F1 progeny “Harlayne” × “Vestar”

Plum pox virus (PPV) is a devastating stone fruit disease of major importance, and better understanding of the genetic control of resistance to this trait would be useful for more efficient development of resistant cultivars. Previous studies have reported a locus of major effect from PPV resistance on linkage group 1. The current study confirms these results by mapping plum pox virus resistance in a F1 progeny issued from a cross between “Harlayne”, as a PPV-resistant parent, and “Vestar” as a susceptible parent. The hybrids were grafted simultaneously and subsequently inoculated with the PPV-M and D strains. The symptom scoring on leaves was performed nine times over two vegetative cycles. Marker–trait associations were analyzed using the Kruskal–Wallis (KW) non-parametric test, and the PPV resistance loci were mapped using composite interval mapping (CIM). We show that both analyses (KW and CIM) highlighted the upper part of linkage group 1 of the apricot “Harlayne” genitor.     

Experimental Transmission of Plum Pox Virus (PPV) to Prunus Mahaleb and Prunus avium

Sharka caused by plum pox virus (PPV) is a disease spread in France since 1970, and causing severe damages essentially on apricot but also on plums and peach. Cherry is generally considered as not infected by PPV. Experimental transmissions by chip budding or aphids allowed to show that 3 isolates of PPV can multiply inside three cherry rootstocks (P. Mahaleb cv.‘SL 64′, P. avium cv.‘F 12-1′, and P. avium*P. pseudocerasus cv. ‘Colt') (Tables 1 and 2). But generally, the virus remained localized to the infection site and disappeared quickly (Table 3). Typical symptoms of chlorotic ringspot or vein clearing are also limited to the leaves probed by the aphids. The fact that no translocation was detected is discussed.     

Sharka in plums: Diagnostics and management

Sharka or plum pox is the most destructive disease of plums and other stone fruits belonging to genus Prunus, worldwide. The disease is incited by plum pox virus (PPV), a member of the genus Potyvirus and family Potyviridae. Timelydetection of PPV in fruit trees is necessary prior to embracing an appropriate management tool for containment of the disease to keep the crop loss sufficiently below the economic threshold level. PPV can be diagnosed by visual examination, particularly, during the period of active growth. Traditionally, cultural methods have been used to isolate and identify this dreaded pathogen. Alternatively, molecular detection techniques are also available which, can generate accurate results rapidly enough to be useful for disease management decisions. With the herald of new frontiers of science such as functional genomics and metabolomics, the development of more cost effective novel tools with exceptional sensitivity in real time is not a distant dream to be realized.     

Transmission of PPV-M to Prunus persica by Brachycaudus schwartzi and Phorodon humuli (Hem., Aphididae)

Abstract:  Aphids are reported to be vectors of the most serious viral pathogen of the drupaceous species plum pox virus (PPV), but there is little direct experimental evidence of this. PPV (serotype M) is widespread in peach orchards even where there are severe control measures. Laboratory bioassays were conducted to study, under controlled conditions, the ability of Brachycaudus schwartzi (Börner) and Phorodon humuli (Schrank) to transmit PPV (serotype M). The results have shown that all the peach trees tested had evident symptoms of sharka and were positive to the RT-PCR analysis, confirming the ability of these two aphid species to transmit the virus.     

Comparison among the isozyme profiles associated with ethrel treatments of leaves, and with senescence and plum pox virus infection in Chenopodium foetidum

Changes in the isozyme profiles of peroxidases (POX, EC 1.11.1.7), glutamate oxaloacetate transaminase (GOT, EC 2.6.1.1) and esterases (EST, EC 3.1.1.1) have been studies in leaves of Chenopodium foetidum S. treated with ethrel. Different systems for administration of the ethrel led to different responses. In intact plants, treatment of the complete surface of leaves or local administration by pricking the leaves induced senescence and wilting as well as quick changes, characteristic of ageing, in the isozyme patterns of the treated leaves. Isolated leaves treated with ethrel in vitro also showed a senescence response, but this was followed by a necrosis that displayed an isozyme pattern highly similar to that of necrotic lesions induced by plum pox virus (PPV) infection. An accelerated senescence process seems to be involved in the induction of changes in the isozyme patterns of expression during the hypersensitive response of Chenopodium foetidum to PPV infection, and ethylene could participate in this process. However, other factors may also be required for necrotization.     

Artificial cleavage site recognized by plum pox potyvirus protease in Escherichia coli.

A synthetic plum pox virus (PPV) NIb-CP cleavage site was recognized by a PPV protease in an in vivo Escherichia coli expression system. The presence of the natural NIb-CP cleavage site did not affect processing at the artificial one. However, although both the proteases and the cleavage sites of PPV and tobacco etch virus show high sequence homology, a similar cassette from the tobacco etch virus NIb-CP junction was not efficiently recognized by the PPV protease.     

Localisation of plum pox virus in apricot stem and petiole tissues by tissue printing onto nitrocellulose membrane

The localisation of plum pox virus (PPV) in stem and petiole tissues of nine susceptible apricot cultivars and GF305 peach seedling has been studied. From stem and petioles consecutive transverse sections spaced at 1 mm were made and tissue sections printed onto nitrocellulose membrane. The resulting prints were probed with a specific antibody for plum pox virus, followed by a rabbit anti-goat antibody conjugated with horse radish peroxidase, in order to localise the virus within the tissues. In stems the virus was mainly present in xylem and pith. The possible presence of the virus in the sclerenchyma is discussed. In petioles the virus was present in epidermis and parenchymas, but not in vessels. The probable movement through the xylem and from cell to cell has been shown.     

Oxidative stress induced by long-term plum pox virus infection in peach (Prunus persica)

In this study, the effect of long-term plum pox virus (PPV) infection on the response of certain antioxidant enzymes at the subcellular level was studied in peach plants ( Prunus persica (L.) Batch) (cv. GF305), which are characterized by great susceptibility to the virus. In infected plants, a decrease in the efficiency of excitation energy capture by PSII ( F _v'/ F _m') was observed, which was accompanied by a decrease in non-photochemical quenching (NPQ). p -Hydroxy-mercury benzoic acid (pHMB)-insensitive ascorbate peroxidase (APX) activity (class III peroxidase) was detected in both chloroplast and soluble fractions. In soluble fractions from inoculated peaches, a significant increase in pHMB-sensitive APX activity and a significant decrease in superoxide dismutase (SOD) activity were observed. These changes were correlated with the observations in isolated chloroplasts, where an increase in both pHMB-sensitive and pHMB-insensitive APX activities was observed, whereas significant decreases in SOD, monodehydroascorbate reductase (MDHAR) and glutathione reductase (GR) activities were produced. According to these results, as a consequence of PPV infection, an oxidative stress, indicated by an increase in lipid peroxidation and protein oxidation, was produced in peach leaves, which was monitored by the diaminobenzidine (DAB) peroxidase-coupled H₂O₂ probe. PPV infection produced an alteration in chloroplast ultrastructure, giving rise to dilated thylakoid membranes. PPV-infected peach leaves showed a decreased amount of starch in chloroplasts from palisade parenchyma, as well as an increase in the number and size of plastoglobuli, in relation to control plants. The results suggest that long-term PPV infection produces an oxidative stress, and that an antioxidative metabolism imbalance may be related to the progress of PPV infection and symptoms in peach plants.     

Host-Specific Involvement of the HC Protein in the Long-Distance Movement of Potyviruses

Plum pox virus (PPV) is a member of the Potyvirus genus that, in nature, infects trees of the Prunus genus. Although PPV infects systemically several species of the Nicotiana genus, such as N. clevelandii and N. benthamiana, and replicates in the inoculated leaves of N. tabacum, it is unable to infect systemically the last host. The long-distance movement defect of PPV was corrected in transgenic tobacco plants expressing the 5"-terminal region of the genome of tobacco etch virus (TEV), a potyvirus that infects systemically tobacco. The fact that PPV was unable to move to upper noninoculated leaves in tobacco plants transformed with the same TEV transgene, but with a mutation in the HC protein (HC-Pro)-coding sequences, identifies the multifunctional HC-Pro as the complementing factor, and strongly suggests that a defect in an HC-Pro activity is responsible for the long-distance movement defect of PPV in tobacco. Whereas PPV HC-Pro strongly intensifies the symptoms caused by potato virus X (PVX) in the PPV systemic hosts N. clevelandii and N. benthamiana, it has no apparent effect on PVX pathogenicity in tobacco, supporting the hypothesis that long-distance movement and pathogenicity enhancement are related activities of the potyviral HC proteins. The movement defect of PPV in tobacco could also be complemented by cucumber mosaic virus in a mixed infection, demonstrating that at least some components of the long-distance machinery of the potyviruses are not strictly virus specific. A general conclusion of this work is that the HC-Pro might be a relevant factor for controlling the host range of the potyviruses.     

Development of a high-resolution melting approach for reliable and cost-effective genotyping of PPVres locus in apricot (<Emphasis Type="Italic">P</Emphasis>. <Emphasis Type="Italic">armeniaca</Emphasis>)

Sharka, caused by plum pox virus, is the most important viral disease of stone fruits. Important progresses have been recently achieved in apricot (Prunus armeniaca), identifying a major locus on chromosome 1 which explains most of the variability for plum pox virus (PPV) resistance trait. A set of molecular markers associated with the resistance has been developed and validated in different genetic backgrounds, endorsing their application for breeding purposes. Particularly for complex traits as the PPV resistance, requiring long and expensive phenotyping procedures, marker-assisted selection (MAS) bears a great potential to improve the efficiency of conventional breeding. In this work, novel HRM (high-resolution melting) assays were designed for the genotyping of resistant/susceptible alleles at PPV resistance (PPVres) locus. The assays were tested on 51 apricot cultivars and breeding selections already phenotyped for PPV resistance and cross-validated with standard short simple repeat marker data. We demonstrated that three HRM assays, PGS1.21_SNP, PGS1.24_SNP, and ZP002_DEL, represent a reliable, quick, and cost-effective genotyping approach, particularly suitable as high-throughput screening method for large-scale breeding programs.     

Alteration in the chloroplastic metabolism leads to ROS accumulation in pea plants in response to plum pox virus

In this work, a recombinant plum pox virus (PPV, Sharka) encoding green fluorescent protein is used to study its effect on antioxidant enzymes and protein expression at the subcellular level in pea plants (cv. Alaska). PPV had produced chlorotic spots as well as necrotic spots in the oldest leaves at 13-15 d post-inoculation. At 15 d post-inoculation, PPV was present in the chlorotic and necrotic areas, as shown by the fluorescence signal produced by the presence of the green fluorescent protein. In the same areas, an accumulation of reactive oxygen species was noticed. Studies with laser confocal and electron microscopy demonstrated that PPV accumulated in the cytosol of infected cells. In addition, PPV infection produced an alteration in the chloroplast ultrastructure, giving rise to dilated thylakoids, an increase in the number of plastoglobuli, and a decreased amount of starch content. At 3 d post-inoculation, although no changes in the oxidative stress parameters were observed, an increase in the chloroplastic hydrogen peroxide levels was observed that correlated with a decrease in the enzymatic mechanisms involved in its elimination (ascorbate peroxidase and peroxidase) in this cell compartment. These results indicate that an alteration in the chloroplastic metabolism is produced in the early response to PPV. This oxidative stress is more pronounced during the development of the disease (15 d post-inoculation) judging from the increase in oxidative stress parameters as well as the imbalance in the antioxidative systems, mainly at the chloroplastic level. Finally, proteomic analyses showed that most of the changes produced by PPV infection with regard to protein expression at the subcellular level were related mainly to photosynthesis and carbohydrate metabolism. It seems that PPV infection has some effect on PSII, directly or indirectly, by decreasing the amount of Rubisco, oxygen-evolving enhancer, and PSII stability factor proteins. The results indicate that Sharka symptoms observed in pea leaves could be due to an imbalance in antioxidant systems as well as to an increased generation of reactive oxygen species in chloroplasts, induced probably by a disturbance of the electron transport chain, suggesting that chloroplasts can be a source of oxidative stress during viral disease development.     

Comparative expression profiling of Nicotiana benthamiana leaves systemically infected with three fruit tree viruses

Plant viruses cause a wide array of disease symptoms and cytopathic effects. Although some of these changes are virus specific, many appear to be common even among diverse viruses. Currently, little is known about the underlying molecular determinants. To identify gene expression changes that are concomitant with virus symptoms, we performed comparative expression profiling experiments on Nicotiana benthamiana leaves infected with one of three different fruit tree viruses that produce distinct symptoms: Plum pox potyvirus (PPV; leaf distortion and mosaic), Tomato ringspot nepovirus (ToRSV; tissue necrosis and general chlorosis), and Prunus necrotic ringspot ilarvirus (PNRSV; subtle chlorotic mottling). The numbers of statistically significant genes identified were consistent with the severity of the observed symptoms: 1,082 (ToRSV), 744 (PPV), and 89 (PNRSV). In all, 56% of the gene expression changes found in PPV-infected leaves also were altered by ToRSV, 87% of which changed in the same direction. Both PPV- and ToRSV-infected leaves showed widespread repression of genes associated with plastid functions. PPV uniquely induced the expression of large numbers of cytosolic ribosomal genes whereas ToRSV repressed the expression of plastidic ribosomal genes. How these and other observed expression changes might be associated with symptom development are discussed.     

Serological detection of Sharka quarantine disease (Plum pox virus) on stone fruit trees in Golestan province

Sharka disease is one of the most damaging diseases of fruit trees in the world, which is caused by Plum pox virus (PPV) that belongs to the genus Potyvirus in the family Potyviridae. Each year, this virus decreases the yield and causes substantial economic damages to its host plants worldwide. This virus is quarantined in Iran but in recent years, suspicious symptoms of the disease were observed in different grown areas, such as Golestan province. During 2010, 420 samples with mosaic, chlorosis, necrosis, ring pattern, blotches, etc. symptoms were collected from the gardens in Golestan province that included 100 samples from plum, 100 from peach and 240 from nectarine. These samples were evaluated using a double-antibody sandwich-ELISA (DAS-ELISA) method and a polyclonal antibody. The results of this survey indicated that among the total of 420 samples, none of them showed positive reaction in DAS-ELISA test.     

Response of antioxidative enzymes to plum pox virus in two apricot cultivars

Recent evidence has indicated that activated oxygen species (AOS) may function as molecular signals in the induction of defence genes. In the present work, the response of antioxidative enzymes to the plum pox virus (PPV) was examined in two apricot (Prunus armeniaca L.) cultivars, which behaved differently against PPV infection. In the inoculated resistant cultivar (Goldrich), a decrease in catalase (CAT) as well as an increase in total superoxide dismutase (SOD) and dehydroascorbate reductase (DHAR) activities were observed. Ascorbate peroxidase (APX), glutathione reductase (GR) and monodehydroascorbate reductase (MDHAR) did not change significantly in relation to non-inoculated (control) plants. In the susceptible cultivar (Real Fino), inoculation with PPV brought about a decrease in CAT, SOD and GR, whereas a rise in APX, MDHAR and DHAR activities was found in comparison to non-inoculated (control) plants. Apricot leaves contain only CuZn-SOD isozymes, which responded differently to PPV depending on the cultivar. Goldrich leaves contained 6 SODs and both SOD 1 and SOD 2 increased in the inoculated plants. In leaves from Real Fino, 5 SODs were detected and only SOD 5 was increased in inoculated plants. The different behaviour of SODs (H2O2-generating enzymes) and APX (an H2O2-remover enzyme) in both cultivars suggests an important role for H2O2 in the response to PPV of the resistant cultivar, in which no change in APX activity was observed. This result also points to further studies in order to determine if an alternative H2O2-scavenging mechanism takes place in the resistant apricot cultivar exposed to PPV. On the other hand, the ability of the inoculated resistant cultivar to induce SOD 1 and SOD 2 as well as the important increase of DHAR seems to suggest a relationship between these activities and resistance to PPV. This is the first report about the effect of PPV infection on the antioxidative enzymes of apricot plants. It opens the way for the further studies, which are necessary for a better understanding of the role of antioxidative processes in viral infection by PPV in apricot plants.