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A Watermelon mosaic virus clone tagged with the yellow visual maker phytoene synthase facilitates scoring infectivity in melon breeding programs

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A Watermelon mosaic virus clone tagged with the yellow visual maker phytoene synthase facilitates scoring infectivity in melon breeding programs

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Aragones, V.; Pérez De Castro, AM.; Cordero, T.; Cebolla Cornejo, J.; López Del Rincón, C.; Picó Sirvent, MB.; Daros Arnau, JA. (2019). A Watermelon mosaic virus clone tagged with the yellow visual maker phytoene synthase facilitates scoring infectivity in melon breeding programs. European Journal of Plant Pathology. 153:317-323. https://doi.org/10.1007/s10658-018-01621-x

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Título: A Watermelon mosaic virus clone tagged with the yellow visual maker phytoene synthase facilitates scoring infectivity in melon breeding programs
Autor: Aragones, V Pérez De Castro, Ana María Cordero, Teresa Cebolla Cornejo, Jaime López Del Rincón, Carmelo Picó Sirvent, María Belén DAROS ARNAU, JOSE ANTONIO
Entidad UPV: Universitat Politècnica de València. Departamento de Biotecnología - Departament de Biotecnologia
Universitat Politècnica de València. Instituto Universitario Mixto de Biología Molecular y Celular de Plantas - Institut Universitari Mixt de Biologia Molecular i Cel·lular de Plantes
Fecha difusión:
Palabras clave: Watermelon mosaic virus , Phytoene synthase , Melon , Cucurbita , Virus diagnosis
Derechos de uso: Reserva de todos los derechos
Fuente:
European Journal of Plant Pathology. (issn: 0929-1873 )
DOI: 10.1007/s10658-018-01621-x
Editorial:
Springer-Verlag
Versión del editor: https://doi.org/10.1007/s10658-018-01621-x
Código del Proyecto:
info:eu-repo/grantAgreement/MINECO//BIO2014-54269-R/ES/INSTRUMENTOS BIOTECNOLOGICOS DERIVADOS DE VIRUS DE PLANTAS/
info:eu-repo/grantAgreement/AEI/Plan Estatal de Investigación Científica y Técnica y de Innovación 2013-2016/BIO2017-83184-R/ES/VIRUS DE PLANTAS: PATOGENOS Y TAMBIEN VECTORES PARA LA PRODUCCION DE PROTEINAS, METABOLITOS, RNAS Y NANOPARTICULAS/
info:eu-repo/grantAgreement/MINECO//AGL2014-53398-C2-2-R/ES/APROXIMACIONES BIOTECNOLOGICAS Y CULTURALES PARA LA MEJORA DE LAS RESISTENCIAS Y EL CONTROL DE ENFERMEDADES EN MELON Y SANDIA/
info:eu-repo/grantAgreement/AEI/Plan Estatal de Investigación Científica y Técnica y de Innovación 2013-2016/AGL2017-85563-C2-1-R/ES/CONTROL MULTIDISCIPLINAR DE ENFERMEDADES FUNGICAS Y VIROSIS EN MELON Y SANDIA: UN NUEVO RETO/
Agradecimientos:
This research was supported by grants BIO2014 54269-R, AGL2014 53398-C2 2-R, BIO2017 83184-R, and AGL2017 85563-C2 1-R from the Spanish Ministerio de Ciencia, Innovación y Universidades (co-financed FEDER funds)
Tipo: Artículo

References

Altschul, S. F., Gish, W., Miller, W., Myers, E. W., & Lipman, D. J. (1990). Basic local alignment search tool. Journal of Molecular Biology, 215(3), 403–410.

Azevedo-Meleiro, C. H., & Rodriguez-Amaya, D. B. (2007). Qualitative and quantitative differences in carotenoid composition among Cucurbita moschata, Cucurbita maxima, and Cucurbita pepo. Journal of Agricultural and Food Chemistry, 55(10), 4027–4033.

Bedoya, L. C., Martínez, F., Orzáez, D., & Daròs, J. A. (2012). Visual tracking of plant virus infection and movement using a reporter MYB transcription factor that activates anthocyanin biosynthesis. Plant Physiology, 158(3), 1130–1138. [+]
Altschul, S. F., Gish, W., Miller, W., Myers, E. W., & Lipman, D. J. (1990). Basic local alignment search tool. Journal of Molecular Biology, 215(3), 403–410.

Azevedo-Meleiro, C. H., & Rodriguez-Amaya, D. B. (2007). Qualitative and quantitative differences in carotenoid composition among Cucurbita moschata, Cucurbita maxima, and Cucurbita pepo. Journal of Agricultural and Food Chemistry, 55(10), 4027–4033.

Bedoya, L. C., Martínez, F., Orzáez, D., & Daròs, J. A. (2012). Visual tracking of plant virus infection and movement using a reporter MYB transcription factor that activates anthocyanin biosynthesis. Plant Physiology, 158(3), 1130–1138.

Brown, R. N., Bolanos-Herrera, A., Myers, J. R., & Jahn, M. M. (2003). Inheritance of resistance to four cucurbit viruses in Cucurbita moschata. Euphytica, 129(3), 253–258.

Cordero, T., Cerdán, L., Carbonell, A., Katsarou, K., Kalantidis, K., & Daròs, J. A. (2017a). Dicer-Like 4 is involved in restricting the systemic movement of Zucchini yellow mosaic virus in Nicotiana benthamiana. Molecular Plant-Microbe Interactions, 30(1), 63–71.

Cordero, T., Mohamed, M. A., López-Moya, J. J., & Daròs, J. A. (2017b). A recombinant Potato virus Y infectious clone tagged with the Rosea1 visual marker (PVY-Ros1) facilitates the analysis of viral infectivity and allows the production of large amounts of anthocyanins in plants. Frontiers in Microbiology, 8, 611.

Cuevas, H. E., Staub, J. E., Simon, P. W., & Zalapa, J. E. (2009). A consensus linkage map identifies genomic regions controlling fruit maturity and beta-carotene-associated flesh color in melon (Cucumis melo L.). TAG. Theoretical and Applied Genetics, 119(4), 741–756.

Desbiez, C., & Lecoq, H. (2004). The nucleotide sequence of Watermelon mosaic virus (WMV, Potyvirus) reveals interspecific recombination between two related potyviruses in the 5′ part of the genome. Archives of Virology, 149(8), 1619–1632.

Desbiez, C., & Lecoq, H. (2008). Evidence for multiple intraspecific recombinants in natural populations of Watermelon mosaic virus (WMV, Potyvirus). Archives of Virology, 153(9), 1749–1754.

Formisano, G., Roig, C., Esteras, C., Ercolano, M. R., Nuez, F., Monforte, A. J., & Picó, M. B. (2012). Genetic diversity of Spanish Cucurbita pepo landraces: An unexploited resource for summer squash breeding. Genetic Resources and Crop Evolution, 59(6), 1169–1184.

Gibson, D. G., Young, L., Chuang, R. Y., Venter, J. C., Hutchison 3rd, C. A., & Smith, H. O. (2009). Enzymatic assembly of DNA molecules up to several hundred kilobases. Nature Methods, 6(5), 343–345.

Gilbert, R. Z., Kyle, M. M., Munger, H. M., & Gray, S. M. (1994). Inheritance of resistance to watermelon mosaic virus in Cucumis melo L. Hortscience, 29(2), 107–110.

Gur, A., Gonda, I., Portnoy, V., Tzuri, G., Chayut, N., Cohen, S., et al. (2016). Genomic aspects of melon fruit quality. In R. Grumet, N. Katzir and J. García-Mas (Eds.), Genetics and genomics of the Cucurbitaceae (pp. 377–408), Springer International Publishing AG 2016.

Juarez, M., Legua, P., Mengual, C. M., Kassem, M. A., Sempere, R. N., Gómez, P., Truniger, V., & Aranda, M. A. (2013). Relative incidence, spatial distribution and genetic diversity of cucurbit viruses in eastern Spain. Annals of Applied Biology, 162(3), 362–370.

López-González, S., Aragonés, V., Daròs, J. A., Sánchez, F., & Ponz, F. (2017). An infectious cDNA clone of a radish-infecting Turnip mosaic virus strain. European Journal of Plant Pathology, 148(1), 207–211.

Majer, E., Daròs, J. A., & Zwart, M. P. (2013). Stability and fitness impact of the visually discernible Rosea1 marker in the tobacco etch virus genome. Viruses, 5(9), 2153–2168.

Majer, E., Llorente, B., Rodríguez-Concepción, M., & Daròs, J. A. (2017). Rewiring carotenoid biosynthesis in plants using a viral vector. Scientific Reports, 7, 41645.

Olives Barba, A. I., Cámara Hurtado, M., Sánchez Mata, M. C., Fernández Ruiz, V., & López Sáenz de Tejada, M. (2006). Application of a UV-vis detection-HPLC method for a rapid determination of lycopene and β-carotene in vegetables. Food Chemistry, 95(2), 328–336.

Ouibrahim, L., Mazier, M., Estevan, J., Pagny, G., Decroocq, V., Desbiez, C., Moretti, A., Gallois, J. L., & Caranta, C. (2014). Cloning of the Arabidopsis rwm1 gene for resistance to Watermelon mosaic virus points to a new function for natural virus resistance genes. The Plant Journal, 79(5), 705–716.

Paris, H. S. (2016). Genetic resources of pumpkins and squash, Cucurbita spp.. In R. Grumet, N. Katzir y J. García-Mas (eds.), Genetics and genomics of the Cucurbitaceae (pp. 111–154), Springer International Publishing AG 2016.

Passeri, V., Koes, R., & Quattrocchio, F. M. (2016). New challenges for the design of high value plant products: Stabilization of anthocyanins in plant vacuoles. Frontiers in Plant Science, 7, 153.

Pitrat, M. (2016). Melon genetic resources: Phenotypic diversity and horticultural taxonomy. In R. Grumet, N. Katzir y J. García-Mas (eds.), Genetics and genomics of the Cucurbitaceae (pp. 25–60), Springer International Publishing AG 2016.

Qin, X., Coku, A., Inoue, K., & Tian, L. (2011). Expression, subcellular localization, and cis-regulatory structure of duplicated phytoene synthase genes in melon (Cucumis melo L.). Planta, 234(4), 737–748.

Revers, F., & García, J. A. (2015). Molecular biology of potyviruses. Advances in Virus Research, 92, 101–199.

Rodamilans, B., Valli, A., Mingot, A., San León, D., Baulcombe, D., López-Moya, J. J., & García, J. A. (2015). RNA polymerase slippage as a mechanism for the production of frameshift gene products in plant viruses of the Potyviridae family. Journal of Virology, 89(13), 6965–6967.

Schaefer, B. C. (1995). Revolutions in rapid amplification of cDNA ends: New strategies for polymerase chain-reaction cloning of full-length cDNA ends. Analytical Biochemistry, 227(2), 255–273.

Thole, V., Worland, B., Snape, J. W., & Vain, P. (2007). The pCLEAN dual binary vector system for Agrobacterium-mediated plant transformation. Plant Physiology, 145(4), 1211–1219.

Zhang, Y., Butelli, E., & Martin, C. (2014). Engineering anthocyanin biosynthesis in plants. Current Opinion in Plant Biology, 19, 81–90.

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