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  • Title: Resistance breaking tomato spotted wilt virus isolates on resistant pepper varieties in Italy.
    Author: Crescenzi A, Viggiano A, Fanigliulo A.
    Journal: Commun Agric Appl Biol Sci; 2013; 78(3):609-12. PubMed ID: 25151838.
    Abstract:
    In spring 2012, resistance breaking (RB) isolates of tomato spotted wilt virus (TSWV) that overcome the resistance conferred by the Tsw gene in different pepper hybrids have been recovered in different locations in southern Italy (Campania and Apulia regions) in protected cultivation, about one month after transplant. The percentage of symptomatic plants was 5-10% and, only in particular cases of advanced stage of cultivation, it reached 30-50% at the end of cycle. All TSWV isolates induced similar systemic symptoms in all resistant infected pepper hybrids: yellowing or browning of apical leaves, which later become necrotic, long necrotic streakson stems, extending to the terminal shoots, complete necrosis of younger fruits and large necrotic streaks and spots on fruits formed after infection. On ripe fruits, yellow spots with concentric rings or necrotic streaks could be observed. Leaf extracts of these samples were tested in ELISA for the detection of TSWV, Cucumber mosaic virus (CMV), Tobacco mosaic virus (TMV), Tomato mosaic virus (ToMV), Impatiens necrotic spot virus (INSV), Potato virus Y (PVY), Alfalfa mosaic virus (AMV), Pepper mild mottle virus (PMMoV) and Pepper Mottle Virus (PepMoV). Only TSWV was detected in all the field samples tested. The correspondent virus isolates were inoculated mechanically and by Frankliniella occidentalis on to a set of different pepper and tomato hybrids, as well as on some herbaceous test plants, in order to investigate for their ability to overcome the resistance genes Tsw and Sw5, respectively. Tomato hybrids carrying the Sw5 gene were uninfected by all RB isolates, whereas all resistant pepper hybrids became systemically infected. RB isolates did not differ noticeably in transmission efficiency when they were tested with the thrips F. occidentalis. Obtained results demonstrate that evolved strains of TSWV have emerged, that they are able to overcome the Tsw resistance gene in pepper plants experimentally inoculated both by mechanical infection and by the vector F. accidentalis. Moreover, evolved strains, here indicated as TSWV-RB-PI (Pepper, Italy), are not able to infect tomato plants carrying the Sw5 gene, confirming that distinct viral gene products control the outcome of infection in plants carrying Sw5 and Tsw. The simultaneous presence of evolved TSWV strains, showing the same biological characteristics (such as host range and symptomatology on different hosts) in two geographic areas of southern Italy, very far each other, let us hypothesize a unique focus of infection. Only subsequently, infected plants, through trade of plant material, have been diffused in locations so far apart. Further molecular studies are underway to assess the possible correlation between the different isolates in different geographical areas.
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