IBBM   21076
INSTITUTO DE BIOTECNOLOGIA Y BIOLOGIA MOLECULAR
Unidad Ejecutora - UE
artículos
Título:
First report of a resistance-breaking isolate of Tomato spotted wilt virus infecting sweet pepper harboring the Tsw gene in Argentina
Autor/es:
FERRAND, L.; M.L.GARCÍA; R.O. RESENDE; P.A.BALATTI; DAL BÓ, E.
Revista:
PLANT DISEASE
Editorial:
AMER PHYTOPATHOLOGICAL SOC
Referencias:
Año: 2015
ISSN:
0191-2917
Resumen:
First report of a resistance-breaking isolate of Tomato spotted wilt virus infecting sweet pepper harboring the Tsw gene in Argentina.L. Ferrand, Centro de Investigaciones de Fitopatología, Universidad Nacional de La Plata, Argentina/ CONICET; M.L. García, Instituto de Biotecnología y Biología Molecular, Universidad Nacional de la Plata/ CONICET; R. O. Resende, Dept. de Biologia Celular, Universidade deBrasília, Brasil; P. A. Balatti and E. Dal Bó, Centro de Investigaciones de Fitopatología, Universidad Nacional de La Plata, CIC, Bs As.The disease caused by Tomato spotted wilt virus (TSWV) is endemic on vegetable crops in Buenos Aires green belt, the most important vegetable production area in Argentina (18,000 ha). Approximately, half of the greenhouse surface planted with sweet pepper (Capsicum annuum L.) in the country is located in La Plata (Buenos Aires). In this area, TSWV had limited sweet pepper production until the introduction of resistant genotypes harboring the Tsw resistance gene that replaced 100% of the susceptible cultivars. However, in November 2013, resistant peppers showing typical Tospovirus symptoms were observed in La Plata. Symptoms appeared 20 days after transplanting in early spring and by midsummer 100% of the plants were affected in many greenhouses, causing important economic losses in this season. Samples from symptomatic plants were analyzed by ELISA with antisera against the viruses: TSWV, Groundnut ringspot virus (GRSV), Tomato chlorotic spot virus (TCSV), Potato virus Y (PVY), Cucumber mosaic virus (CMV) and Tobacco mosaic virus (TMV). All samples were positive only for TSWV. Presence of TSWV was confirmed by RT-PCR with primers designed from a conserved sequence of the N gene that amplified a fragment of about 450 bp. Further, RFLP using BstNI and HinCII enzymes that cut the 450 bp fragment specifically (Dewey et al; 1996), showed the typical restriction pattern of TSWV. To test the ability to overcome the resistance, this greenhouse-isolate, named TSWV-A2, was mechanically transmitted to two commercial pepper cultivars carrying the Tsw gene, cv. Almuden and cv. Platero (10 plants each). After two weeks, all plants were systemically infected showing the typical symptoms of TSWV infection. RT-PCR (as previously described) from total RNA extracted from symptomatic leaves of these plants, confirmed the presence of TSWV-A2. Therefore, we demonstrated that TSWV-A2 is able to overcome Tsw gene resistance. Furthermore, to amplify the complete N gene of TSWV-A2 isolate, a new RT-PCR was carried out (Lovato et al. 2008). A specific 800 bp product was cloned and sequenced (GenBank accession No KP719131). Blast analysis showed that the sequence was 99% homologous at the nucleotide as well as the amino acid sequence to the N gene of isolates EF195230 and EF195224 from South Korea (Kim et al. 2004). In addition, TSWV-A2 showed to share common characteristics with the resistant-breaking isolates infecting sweet pepper cultivars carrying the Tsw gene, previously reported in Italy (Roggero et al. 2002) and Spain (Margaria et al. 2004). Overall, based on biological, serological and molecular features, this is the first report of a local isolate of TSWV breaking the Tsw-resistance in sweet pepper in Argentina. References:R.A. Dewey et al. J. of Virol. Methods 56:19-26. 1996.J.H. Kim et al. J. Plant Pathol. 20, 297-301. 2004.F. Lovato Antinolfi et al. Virus Research 137: 245-252. 2008.P. Margaria et al. Plant Pathol. 53:795. 2004. P. Roggero et al. Plant Dis. 86: 950-954. 2002.