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Current Status of the Transgenic Approach for Control of Papaya Ringspot Virus Baulcombe D.C. Mechanisms of pathogen-derived resistance to virus in transgenic plants. Plant Cell 1996; 8: 1833–1844. Baulcombe D.C. Viruses and gene silencing in plants. Archives of Virology 1999; 15: 189–201. Beachy R. Coat protein-mediated resistance against virus infection. Annual Revue of Phytopathology 1990; 28: 451–474. Capoor S.P., Varma P.M. A mosaic disease of Carica papaya L. in the Bombay province. Current Science 1948; 17: 265–266. Chan H.T., Tang C.S. The chemistry and biochemistry of papaya. In: Inglett G.E., Charolambous G., eds. Tropical Foods. New York: Academic Press; 1978. Vol 1: 33–55. Chen G., Ye C.M., Huang J.C., Yu M., Li B.J. Cloning of the Papaya ringspot virus replicase gene and generation of the PRSV-resistant papaya through the introduction of the PRSV replicase gene. Plant Cell Reports 2001; 20: 272–277. Cheng Y.H., Yang J.S., Yeh S.D. Efficient transformation of papaya by coat protein gene of Papaya ringspot virus mediated by Agrobacterium following liquid-phase wounding of embryogenic tissues with carborundum. Plant Cell Reports 1996; 16: 127–132. Conover R.A. Distortion ringspot, a severe disease of papaya in Florida. Proceedings of the Florida State Horticultural Society 1964; 77: 440–444. Conover R.A. A program for development of papaya tolerant to the distortion ringspot virus. Proceedings of the Florida State Horticultural Society 1976; 89: 229–231. Conover R.A., Litz R.E. Progress in breeding papaya with tolerance to Papaya ringspot virus. Proceedings of the Florida State Horticultural Society 1978; 91: 182–184. Conover R.A., Litz R.E., Malo S.E. “Cariflora”—a Papaya ringspot virus-tolerant papaya for south Florida and the Caribbean. HortScience 1986; 21: 1072. Cook A.A., Zettler F.W. Susceptibility of papaya cultivars to papaya ringspot and papaya mosaic virus. Plant Disease Report 1970; 54: 893–895. Davis M.J., Ying Z. Development of papaya breeding lines with transgenic resistance to Papaya ringspot virus. Plant Disease 2004; 88: 352–358. De La Rosa M., Lastra R. 1983; Purification and partial characterization of papaya ringspot virus. Phytopathologische Zeitung 106: 329–336. De Mejia M.V.G., Hiebert E., Purcifull D.E. Isolation and partial characterization of the amorphous cytoplasmic inclusions protein associated with infections caused by two potyviruses. Virology 1985a; 142: 24–33. De Mejia M.V.G., Hiebert E., Purcifull D.E., Thornbury D.W., Pirone T.P. Identification of potyviral amorphous inclusion protein as a nonstructural, virus-specific protein related to helper component. Virology 1985b; 142: 34–43. Fermin G., Inglessis V., Garboza C., Rangle S., Dagert M., Gonsalves D. Engineered resistance against Papaya ringspot virus in Venezuelan transgenic papaya. Plant Disease 2004; 88: 516–522. Ferreria S.A., Pitz K.Y., Manshardt R., Zee F., Fitch M. Virus coat protein transgenic papaya provides practical control of Papaya ringspot virus in Hawaii. Plant Disease 2002; 86: 101–105. Fitch M.M.M., Manshardt R.M. Somatic embryogenesis and plant regeneration from immature zygotic embryos of papaya (Carica papaya L.). Plant Cell Report 1990; 9: 320–324. Fitch M.M.M., Manshardt R.M., Gonsalves D., Slightom J.L., Sanford J.C. Stable transformation of papaya via microprojectile bombardment. Plant Cell Report 1990; 9: 189–194. Fitch M.M.M., Manshardt R.M., Gonsalves D., Slightom J.L., Sanford J.C. Virus resistance papaya plants derived from tissues bombarded with the coat protein gene of Papaya ringspot virus. Bio/Technology 1992; 10: 1466–1472. Fuchs M., Gonsalves D. Resistance of transgenic hybrid squash ZW-20 expressing the coat protein genes of Zucchini mosaic virus and Watermelon mosaic virus 2 to mixed infections by both potyviruses. Bio/Technology 1995; 13: 1466–1473. – 63 –
Business Potential for Agricultural Biotechnology Products Fuchs M., Tericoli D.M., Carney K.J., Schesser M., McFerson J.R., Gonsalves D. Comparative virus resistance and fruit yield of transgenic squash with single and multiple coat protein genes. Plant Disease 1998; 82: 1350–1356. Goldbach R., Bucher E., Prins M. Resistance mechanisms to plant viruses: An overview. Virus Research 2003; 92: 207–212. Gonsalves D. Control of Papaya ringspot virus in papaya: a case study. Annual Revue of Phytopathology 1998; 36: 415–437. Gonsalves D. Coat protein transgenic papaya “acquired” immunity for controlling papaya ringspot virus. Current Topics in Microbiology and Immunology 2002; 266: 73–83. Gonsalves D., Garnsey S.M. Cross-protection techniques for control of plant virus diseases in the tropics. Plant Disease 1989; 73: 592–597. Gonsalves D., Ishii M. Purification and serology of papaya ringspot virus. Phytopathology 1980; 70: 1028–1032. Hamilton A.J., Baulcombe D.C. A species of small antisense RNA in posttranscriptional gene silencing in plants. Science 1999; 286:v950–952. Herold F., Weibel J. Electron microscopic demonstration of papaya ringspot virus. Virology 1962; 18: 307–311. Jan F.J., Fagoaga C., Pang S.Z., Gonsalves D. A single chimeric transgene derived from two distinct viruses confers multi-virus resistance in transgenic plants through homology-dependent gene silencing. Journal of General Virology 2000; 81: 2103–2109. Jensen D.D. Papaya virus diseases with special reference to papaya ringspot. Phytopathology 1949a; 39: 191–211. Jensen D.D. Papaya ringspot virus and its insect vector relationship. Phytopathology 1949b; 39: 212–220. Lana A.F. Transmission and properties of virus isolated from Carica papaya in Nigeria. Journal of Horticultural Science 1980; 55: 191–197. Lines R.E., Persley D., Dale J.L., Drew R., Bateson M.F. Genetically engineered immunity to Papaya ringspot virus in Australian papaya cultivars. Molecular Breeding 2002; 10: 119– 129. Ling K., Namba S., Gonsalves C., Slightom J.L., Gonsalves D. Protection against detrimental effects of potyvirus infection in transgenic tobacco plants expressing the Papaya ringspot virus coat protein gene. Bio/Technology 1991; 9: 752–758. Lius S., Manshardt R.M., Fitch M.M.M., Slightom J.L., Sanford J.C., Gonsalves D. Pathogenderived resistance provides papaya with effective protection against Papaya ringspot virus. Molecular Breeding 1997; 3: 161–168. Lomonossoff G.P. Pathogen-derived resistance to plant viruses. Annual Revue of Phytopathology 1995; 33: 323–343. Manshardt R.M. Papaya. In: Hammerschlag FA, Litz RE, eds. Biotechnology of Perennial Fruit Crops. Kew, UK: CAB International; 1992. 489–511. Maoka T., Kashiwazaki S., Tsuda S., Usugi T., Hibino H. Nucleotide sequence of the capsid protein gene of the Papaya leaf distortion mosaic potyvirus. Archives of Virology 1996; 141: 197–204. Martelli G.P., Russo M. Unusual cytoplasmic inclusions induced by Watermelon mosaic virus. Virology 1976; 72: 352–362. Mekako H.U., Nakasone H.Y. Interspecific hybridization among 6 Carica species. Journal of the American Society of Horticultural Science 1975; 100: 237–242. Murphy F.A., Fauquet C.M., Bishop D.H.L., Ghabrial S.A., Jarvis A.W., Martelli G.P., Mayo M.A., Summer M.D. Virus Taxonomy. Vienna: Springer Verlag; 1995. 350–354. Purcifull D.E., Edwardson J.R. Watermelon mosaic virus: tubular inclusion in pumpkin leaves and aggregates in leaf extracts. Virology 1967; 32: 393–401. – 64 –
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From: Business Potential for Agricu
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Report of the APO Multi-country Stu
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Part IV Appendices 5. Agricultural
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Part I Summary of Findings
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Business Potential for Agricultural
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Page 18 and 19: Business Potential for Agricultural
Page 28 and 29: 1. WHY AGRICULTURAL BIOTECHNOLOGY?
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Agricultural Biotechnology Developm
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- 117 - Agricultural Biotechnology
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PROSPECTS - 119 - Agricultural Biot
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Status of Agricultural Biotechnolog
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Status of Agricultural Biotechnolog
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8. TRENDS IN KOREAN ANIMAL BIOTECHN
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- 127 - Trends in Korean Animal Bio
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- 129 - Trends in Korean Animal Bio
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9. BUSINESS POTENTIAL FOR AGRICULTU
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10. BUSINESS POTENTIAL FOR AGRICULT
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PUBLIC SECTOR R&D ACTIVITIES Busine
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11. STATUS OF PUBLIC RICE BIOTECHNO
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Status of Public Rice Biotechnology
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Status of Public Rice Biotechnology
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Trademarked GloFish with genetic-en
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Agricultural research contains more
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Mr. Rozhan Abu Dardak Research Offi
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C. Secretariat Dr. Sung Ho Son Prof
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Thurs., 26 May Forenoon Visit Taida
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