La producción de papaya (Carica papaya L.) cada día cobra mayor importancia económica a nivel mundial debido a que se puede consumir como fruta fresca o procesarse para obtener otros productos en el área farmacéutica, culinaria, médica, industria cervecera y bebidas no alcohólicas. Sin embargo, la agricultura se enfrenta a las series dificultades que supone el control de los virus que constituyen un importante grupo de organismos patógenos para este cultivo. La obtención de resistencia al Virus de la mancha anular de la papaya constituye un área de interés creciente pues las principales variedades comerciales de papaya son susceptibles a esta enfermedad. Con este objetivo, la Ingeniería Genética ha generado importantes resultados y al mismo tiempo, ha introducido elementos nuevos en el planteamiento estratégico global del control. Este trabajo resume las principales estrategias utilizadas para la obtención de resistencia al Virus de la mancha anular de la papaya durante las últimas dos décadas.

Palabras clave: PRSV, transformación genética

Aranda, M (2006) Avances recientes en el conocimiento sobre la interacción de los virus de las

plantas con sus huéspedes. [En línea] En: http:// www.encuentros.uma.es/encuentros56/virus.html (Consultado 15 de agosto de 2009)

Bateson, MF, Henderson J, Chaleeprom W, Gibbs AJ, Dale JL (1994) Papaya ringspot potyvirus: Isolate variability and the origin of PRSV type P (Australia). Journal of General Virology 75: 3547-3553

Bateson, MF, Lines RE, Revil P, Chaleeprom W, Ha CV, Gibbs AJ, Dale JL (2002) On the evolution and molecular epidemiology of the potyvirus Papaya ringspot virus. Journal of General Virology 83: 2575-2585

Bau, HJ, Cheng YH, Yu TA, Yang JS, Yeh SD (2003) Broad-spectrum resistance to different geographic strains of Papaya ringspot virus in coat protein gene transgenic papaya. Phytopathology 93: 112-120

Bau, HJ, Cheng YH, Yu TA, Yang JS, Liou PC, Hsiao CH, Lin CY, Yeh SD (2004) Field evaluation of transgenic papaya lines carrying the coat protein gene of Papaya ringspot virus in Taiwan. Plant Disease 88: 594-599

Bau, HJ, Kung YJ, Raja JA J, Chan SJ, Chen KC, Chen YK, Wu HW, Yeh SD ( 2008) Potential threat of a new pathotype of Papaya leaf distortion mosaic virus infecting transgenic papaya resistant to Papaya ringspot virus. Phytopathology 98: 848-856

Baulcombe, DC (1996) Mechanisms of pathogen-derived resistence to virus in transgenic plants. Plant Cell 8: 1833-1844

Chay-Prove, P, Ross P, O’Hare P, Macleod N, Kernot I, Evans D, Grice K, Vawdrey L, Richards N, Blair A, Astridge D (2000) Agrilink Series: Your growing guide to better farming. Papaw Information Kit. Queensland Horticulture Institute and Department of Primary Industries, Qld. Nambour

Chen, G, Ye CM, Huang JC, Li BJ (2001) Cloning of the Papaya ringspot virus (PRSV) replicase gene and generation of PRSV-resistant papayas through the introduction of the PRSV replicase gene. Plant Cell Reports 20: 272-277

Chiang, C. Wang J, Jan F, Yeh S, Gonsalves D (2001) Comparative reactions of recombinant Papaya ringspot viruses with chimeric coat protein (CP) genes and wild-type viruses on CP-transgenic papaya. Journal of General Virology 82: 2827-2836

Dasgupta, I, Malathi VG, Mukherjee SK (2003) Genetic engineering for virus resistance. Current Science 84: 341-353

Davidson, S (2008) Forbidden fruit: Transgenic papaya in Thailand. Plant Physiology 147: 487-493

Davis, MJ, Kramer JB, Fewerda FH, Brunner BR (1996) Association of a bacterium and not a phytoplasma whith Papaya bunchy top disease. Phytopathology 86: 102-109

dos Santos, AA, Cardoso JE, Vidal J (2004) Eficiência do uso da barreira com cana de açúcar no controle da Mancha anelar do mamoeiro. Fortaleza, Embrapa Agroindustria Tropical. [En línea] En: http:// www.cnpat.embrapa.br/publica/pub/BolPesq/ bd_18.pdf. (Consultado 9 de enero de 2009)

Duxbury, JM (2003) Food systems approaches to nutrition and health: The role of transgenic papaya. En: Virus resistant transgenic papaya in Hawaii: A case study for technology transfer to lesser developed countries: Proceedings of an OECD/USAID/ARS Conference, pp. 133-138. Hilo. USA

FAO (2006) FAOSTAT database. Agricultural production. Crops primary. [En línea] En: http:// faostat.fao.org/ faostat/collections (Consultado 7 de abril de 2009)

FAO (2008) FAOSTAT, FAO statistics division. Crops production quantity. [En línea] En: http:// faostat.fao.org/ site/567/default.aspx (Consultado 7 de abril de 2009)

Ferreira, SA, Mau RFL, Manshardt R, Pitz KY, Gonsalves D (1992) Field evaluation of Papaya ringspot virus cross protection. En: Proccedings of the 28th Annual Hawaii Papaya Industry Association Conference, pp. 14-19. Honolulu. USA

Fitch, MMM, Manshardt R (1990) Somatic embryogenesis and plant regeneration from immature zygotic embryos of papaya (Carica papaya L.). Plant Cell Reports 9: 320-24

Fitch, MMM, Manshardt R, Gonsalves D, Slightom JL, Sanford JC (1990) Stable transformation of papaya via microprojectile bombardment. Plant Cell Reports 9: 189-94

Fitch, MMM, Manshardt R, Gonsalves D, Slightom JL, Sanford JC (1992) Virus resistant papaya derived from tissues bombarded with the coat protein gene of Papaya ringspot virus. Bio-Technology 10: 1466-72

Fraile, A, Aranda MA, García-Arenal F (1995) Evolution of the Tobamoviruses. En: Gibbs A, Calisher CH, García-Arenal F (Eds) Molecular basis of virus evolution, pp. 338-350. Cambridge University Press, Cambridge

Gal-On, A, Meiri E, Raccah B, Gaba V (1998) Recombination of engineered defective RNA species produces infective potyvirus in planta. Journal of Virology 72: 5268-5270

Gonsalves, C, Lee DR, Gonsalves D (2007) The adoption of genetically modified papaya in Hawaii and its implications for developing countries. Journal of Developmental Studies 43: 177-191

Gonsalves, D (1998) Control of Papaya ringspot virus in papaya: A case study. Annual Reviews Phytopathology 36: 415-37

Gonsalves, D (2004) Development of Ringspot virus resistant transgenic papaya for Bangladesh. [En línea] En: http://www.ars.usda.gov/research/projects/ projects.htm?ACCN_NO=406546 (Consultado 13 de julio de 2009)

Gonsalves, D, Gonsalves C, Ferreira S, Pitz K, Fitch M, Manshardt R y Slightom J (2004) Transgenic virus resistant papaya: From hope to reality for controlling Papaya ringspot virus in Hawaii. [En línea] En: http:/ /www.apsnet.org/online/feature/ringspot/ (Consultado 13 de julio de 2009)

Gonsalves, D, Vegas A, Prasartsee R, Drew R, Suzuki J, Tripathi S (2006) Developing papaya to control Papaya ringspot virus by transgenic resistance, intergeneric hybridization and tolerance breeding. Plant Breeding Reviews 26: 35-781

Gonsalves, D, Suzuki JY, Tripathi S, Ferreira SA (2009) Transgenic tropical and subtropical fruits and nuts. En: Chittaranjan, Kole y Timothy CH (Eds) Compendium of Transgenic crop plants, pp. 1-258. Wiley-Backwell Nuw York

Hamilton, AJ, Baulcombe DC (1999) A species of small antisense RNA in posttranscriptional gene silencing in plants. Science 286: 950-952

Hautea RA, YK Chan, Attathom S, Krattige AF

(1999) The papaya biotechnology network of southeast Asia: Biosafety considerations and papaya background information. ISAAA Briefs Nº 11. ISAAA: Ithaca, NY

Hernández E, Riestra D, García E, Mosqueda DL

(2000) Respuesta del Virus de la mancha anular del papayo (PRSV) en tres sistemas de manejo. Manejo Integrado de Plagas 58

Hodson de Jaramillo, E (2005) Transformación genética de plantas para resistencia a virus. Revista de la Academia Colombiana de Ciencias 29: 5-24

Hossain, M, Rahman N, Islam S, Joarder O (1993) High efficient plant regeneration from petiole explants of Carica papaya L. through organogenesis. Plant Cell Reports 13: 99-102

Huey-Jiunn, B, Ying-Huey C, Tsong-Ann Y, Jiu-Sherng Y, Pan-Chi L, Chi-Hsiung H, Chien-Yih L, Shyi-Dong Y (2004) Field evaluation of transgenic

papaya lines carrying the coat protein gene of Papaya ringspot virus in Taiwan. Plant Disease 88: 594-599

Hussain, S, Varma A (1994) Occurrence of Papaya ringspot virus from Amritsar (Punjab) India. Journal of Phytopathology Research 7: 77-78

Kaniewski, W, Lawson C (1998) Coat protein and replicase-mediated resistance to plant viruses. En: Hadidi A, Khetarpal RK, Koganezawa E (Eds) Plant Viral Disease Control, pp. 65-78. APS Press, St. Paul

Kung, YJ, Bau HJ, Wu YL, Huang CH, Chen TM, Yeh SD (2009) Generation of transgenic papaya with double resistance to Papaya ringspot virus and Papaya leaf-distortion mosaic virus. Phytopathology 99: 1312-1320

Lindbo, JA, Dougherty WG (1992) Untranslatable transcripts of the Tobacco etch virus coat protein gene sequence can interfere with Tobacco etch virus replication in transgenic plants and protoplasts. Virology 189: 725-33

Lindbo, JA, Dougherty WG (2005) Plant pathology and RNAi: A brief history. Annual Review of Phytopathology 43: 191-204

Lindbo, JA, Silva-Rosales L, Proebsting WM, Dougherty WG (1993) Induction of a highly specific antiviral state in transgenic plants: Implications for regulation of gene expression and virus resistance. Plant Cell 5: 1749-59

Llacer, G, López MM, Trapero A, Bello A (1997) Patología Vegetal. Sociedad Española de Fitopatología. Madrid

Lokhande, NM, Moghe PG, Matte AD, Hiware BJ (1992) Occurrence of Papaya ringspot virus (PRSV) in Vidharbha regions of Maharashtra. Journal of Soils and Crops 2: 36-39

Lomonossoff, GP (1995) Pathogen-derived resistence to plant virus. Annual Review of Phytopathology 33: 323-43

Masuta, C, Uyeda S, Suzuki M, Uyeda I (1998) Evolution of a quadripartite hybrid virus by interspecific exchange and recombination between replicase components of two related tripartite RNA viruses. Proceedings of the National Academy of Sciences USA 95: 10487-10492

Mau, RFL, Gonsalves D, Bautista R (1989) Use of cross protection to control Papaya ringspot virus at Waianae. En: Proccedings of the 25th Annual Hawaii Papaya Industry Association Conference, pp. 77-84. Hilo. USA

McGranahan, GH, Leslie CA, Uratsu SL, Martin LA, Dandekar AM (1998) Agrobacterium-mediated

transformation of walnut somatic embryos and regeneration of transgenic plants. Bio-Technology 6: 800-804

Meins, F Jr, Si-Ammour A, Blevins T (2005) RNA silencing systems and their relevance to plant development. Annual Review of Cell and Developmental Biology 21: 297-318

Muñoz, S (1983) Programa de mejoramiento genético de la fruta bomba Carica papaya L. Ciencia y técnica en la agricultura. Cítricos y otros frutales. La Habana

Nakasone, HY, Paull RE (1998) Papaya. En: Nakasone HY y Paull RE (Eds) Tropical Fruits, pp. 239-269. CAB International. UK

OECD (2003) Draft consensus document on the biology of Carica papaya (L.) (Papaya). Report No. 5, OECD, France

Pang, SZ, Sanford JC (1998) Agrobacterium-mediated gene transfer in papaya. Journal of the Americam Society for Horticultural Science 113: 287-91

Peña H, Díaz JA, Martínez T (1996) Fruticultura Tropical. 2da parte. Colombia

Persley D (2004) Papaya Ringspot Disease. [En línea] En: http://www.dpi.qld.gov.au/horticulture/ 5333.html (Consultado 1 de diciembre de 2008)

Pitz K, Ferreira S, Mau R, Gonsalves D (1994) Papaya cross protection; the near-commercialization experience on Oahu. En: Proccedings of the 30th Annual Hawaii Papaya Industry Association Conference, pp. 4-6. Maui. USA

Reyes RD (1983) Manual Técnico de producción de papaya. Instituto de Investigación Agropecuaria. Panamá

Rezende, JAM, Pacheco DA (1998) Control of Papaya ringspot virus type-W in zucchini squash by cross protection in Brazil. Plant Disease 82: 171-175

Robertson, DL, Sharp PM, McCutchan FE, Hahn BH (1995) Recombination in HIV-1. Nature 374: 124-126

Roig y Mesa JT (1988) Diccionario Botánico de nombres vulgares cubanos. Editorial Científico-Técnica. La Habana

Roossinck, M (1997) Mechanisms of plant virus evolution. Annual Review of Phytopathology 35: 191-209

Sanford JC, Johnston SA (1985) The concept of parasite-derived resistance-deriving resistance genes from the parasite’s own genome. Journal of Theorical Biology 113: 395-405

Sevilla, N, Domingo E (1996) Evolution of a persistent aphthovirus in cytolytic infections: Partial reversion of phenotypic traits accompanied by genetic diversification. Journal of Virology 70: 6617-6624

Yeh, S, Bau H, Cheng Y, Yang J (1998) Greenhouse and field evaluations of coat-protein transgenic papaya resistant to Papaya ringspot virus. International Symposium Biotechnology Tropical and Subtropical Species, 2da Parte

Simon, AE, Bujarski JJ (1994) RNA-RNA recombination and evolution in virus-infected plants. Annual Review of Phytopathology 32: 337-362

Space, JC, Waterhouse B, Denslow JS y Nelson D (2000) Invasive plant species on Rota, commonwealth of the Northern Mariana Islands. USDA Forest Service, Honolulu. [En línea] En: http://www.hear.org/ pier/reports/rreport.htm (Consultado 18 de mayo de 2009)

Stange C (2006) Plant-virus interactions during the infective process. Ciencia e Investigacion Agraria 33: 1-18

Starley, IF, Mohammed P, Schneider G, Bickler SW (1999) The treatment of pedriatics burns using tropical papaya. Burns 25: 636-639

Swain, S, Powell DA (2001) Papaya ringspot virus resistant papaya: A case study technical report. [En línea] En: http://www.foodsafetynetwork.ca/gmo/ papayarep.htm (consulta: 1 de diciembre de 2008)

Tecson Mendoza, EM, C Laurena A, Botella JR (2008) Recent advances in the development of transgenic papaya technology. Biotechnology Annual Reviews 14: 423-62

Tennant, PF, Fitch M, Manshardt R, Slightom JL (1997) Resistence against Papaya ringspot virus

isolated in coat protein transgenic papaya is affected by transgene dosage and plant development. Phytopathology 87: S96

Tennant, PF, Gonsalves C, Ling KS, Fitch M, Manshardt R, Slightom JL, Gonslaves D (1994) Differential protection against Papaya ringspot virus isolates in coat protein gene transgenic papaya and classically cross-protected papaya. Phytopathology 84: 1359-1366

Thomas, JE, Dodman RL (1993) The first record of Papaya ringspot virus type P in Australia. Australian Plant Pathology 22: 2-7

Tripathi, S, Bau HJ, Chen LF, Yeh CD (2004) The ability of Papaya ringspot virus strains overcoming the transgenic resistance of papaya conferred by the coat protein gene is not correlated with higher degrees of sequence divergence from the transgene. European Journal of Plant Pathology 110: 871-88

Tripathi, S, Suzuki JY, Ferreira SA, Gonsalves D (2008) Pathogen profile: Papaya ringspot virus-P: characteristics, pathogenicity, sequence variability and control. Molecular Plant Pathology 9: 269-280

Vegas, A, González A, Trujillo G, Pino I (1998) Dificultad en el diagnóstico serológico de cepas atenuadas del Virus de la mancha anillada distorsionante de la lechosa (PRSV). Fitopatología Venezolana 11: 40-44

Villegas, VN (1997) Edible fruits and nuts-Carica papaya L. Wageningen University. Wageningen

Wei, F, Wing RA (2008) A fruitful outcome to the papaya genome project. Genome Biology 9: 227