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Prune dwarf virus (PDV) is an economically important plant pathogenic virus affecting Prunus species globally. PDV is found worldwide due to easy transmission through seed, pollen, and vegetative propagation. The virus is in the family Bromoviridae an important family of plant RNA viruses containing six genera, including Alfamovirus, Ilarvirus, Bromovirus,  Amularvirus, Oleavirus, and Cucumovirus. PDV belongs to the genera Ilarvirus. It can cause dwarfism of leaves on certain prune and plum plants. It will also cause yellows in sour cherry, especially when present with Prunus necrotic ringspot virus. There are no known transmission vectors, though the pollen of infected cherry trees has been found to infect other cherry trees a small percent of the time.

Hosts and symptoms
All cultivated species of the genus Prunus including plums, cherries (sour and sweet), almonds, peaches, and apricots, are susceptible to PDV. PDV causes more damage to Prunus than PNRSV. Symptoms are variable and depend on climate, virus isolate, host species, and cultivar. Common symptoms of PDV are stunting of the tree, necrosis, and chlorosis. Symptoms of PDV in peach include darker green foliage, r .osette formation in developing shoots, shortened internodes, and reduction in both plant and fruit growth. Frequently, PDV occurs in mix infections with other ilarviruses, like PNRSV. Mixed infection of PDV and PNRSV reduce yield by up to 60% indy stu peach, along with bark splitting and increased sucker production.

Various symptoms can be induced by different strains in plant host. For example, PDV-infected cherry (cv. Schattenmorelle) resulted in crop reduction of 94-97% and a reduced height of 9-15% whenc compared to healthy trees. In sweet cherry the crop reduction was 30-90%. While on peach, symptoms included a 40% reduction in diameter and a 35% reduction in lenght of PDV-infected shoots.

Peach Stunt Disease
PDV and PNRSV are the most common viruses affecting peach in the southeastern US. PDV and PNRSV can cause disease independently of each other or can co-infect, resulting in a synergistic interaction causing a distinct dwarfing disease called peach stunt. Peach stunt disease symptoms include stunting, defoliation, reduced fruit yield, reduction in trunk circumference, and doubled production of water sprouts.

Transmission
Transmission of PDV mainly occurs through pollen, seed, and vegetative propagation (grafting and budding). PDV infected pollen can be transmitted from tree to tree (horizontal transmission) and from parent to progeny (vertical transmission). Seed transmission for PDV has been confirmed in various Prunus species. In P. mahaleb, a cherry rootstock, the major method of PDV dispersal is through seed and can result in 40% to 50% seed transmission efficiency. PDV is regularly inspected in inmported seeds from P. cerasifera, P. Persia, P. armeniaca, P. avian, P. mandshurica, P. serotina, and P. cerasus.

Although there are no known transmission vectors for PDV, there are virus facilitators. Bees have been found to facilitate the transmission of PDV through infected PDV-infected pollen from infected trees to healthy trees. Additionally, thrips have also been shown to help facilitate the transmission of PDV and PNRSV by the creation of mechanical wounds allowing for virus transmission.

Virion Properties, Structure, and Genome
PDV is a multicomponent virus. Virions of PDV are unenveloped and have varying symmetries from quasi-isometric to bacilliform.

The PDV genome is divided into three segmented positive sense single-stranded (SS) RNA. RNA1 and RNA2 each has only a single ORF, encodes P1 protein and P2 protein, respectively. RNA3 posseses two ORFs which encodes movement protein (MP) and the viral coat protein (CP), respectively. Each of these RNA segments is individually packaged into viral capsids. The P1 protein encoded by ORF1 is an enzymatic protein with two domains, a methyltransferase domain and C-proximal domain, and is involved in the viral RNA replication process. The P2 protein encoded by ORF2 is the RNA-dependent RNA polymerase (RdRp) part of the replicase enzyme. Most likely, the P1 and P2 proteins together form the RNA replication complex. The MP is a transport protein that can support viral transport through tubular structures. The CP is a structural protein with functions in the genome activation to initiate infection.

Phylogeny
A phylogenetic study based on recombinant-free MP and CP sequences clustered global PDV isolates into three main groups. However, the phylogenetic trees based on P1 and P2 regions did not share the similar topology of MP and CP. Additional P1 and P2 sequences are still in need to fully understand PDV evolution. One study found that that the major differences amongst PDV isolates happens at the RNA3 sequence thus allowing for differentiation into phylogenetic groups. Additionally the RNA3 sequences are highly conserved, suggesting key roles of the MP and CP for early infection, virus transport and virus interaction.

Managment and Control
Inspection of PDV and other quarantine viruses was done using enzyme-linked immunosorbent assay (ELISA). Yet, due to low sensitivity and false positive reactions, other methods liked RT-PCR and PCR have been explored due to their higher detection sensitivity. Additionally, early detection of PDV in propagative material is important for control and sustainable agriculture.

Phytosanitary certification schemes are applied to fruit trees this allows for the production of planting material with known variety and health status and allows for controlling the propagation of virus-tested mother plants.