Source: AGRICOLA database (1970-1996)

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Suastika, G., J. Kurihara, et al. (1997). A strain of chrysanthemum B carlavirus causing flower colour breaking on Gymnaster savatieri (Makino) Kitamura. Annals of the Phytopathological Society of Japan 63(1): 1-7. {a} Fac. Agriculture, Tokyo Univ. Agriculture, Tokyo, Japan

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Gara, I. W., H. Kondo, et al. (1996). Further characterization of cymbidium mosaic virus from Vanda orchid. Bulletin of the Research Institute for Bioresources Okayama University 4(2): 163-174. Res. Inst. Bioresources, Okayama Univ., Kurashiki 710, Japan

Inouye, N., J. I. Matsumoto, et al. (1996). Orchid fleck virus, the causal agent of a yellowish fleck mosaic disease of Calanthe. Bulletin of the Research Institute for Bioresources Okayama University 4(2): 119-135. Res. Inst. Bioresources, Okayama Univ., Kurashiki 710, Japan

Li, Y., C. Wei, et al. (1996). Immunodetection of beet necrotic yellow vein virus RNA3-encoded protein in different host plants and tissues. Acta Virologica 40(2): 67-72. {a} Natl. Lab. Protein Eng. Plant Genetic Eng., Peking Univ., Beijing 10087, China

Matsumoto, J. I., S. Urabe, et al. (1996). Some properties of cymbidium mosaic virus isolated from Calanthe spp. Bulletin of the Research Institute for Bioresources Okayama University 4(2): 187-199. {a} Res. Inst. Bioresources, Okkayama Univ., Kurashiki 710, Japan

Agranovsky, A. A., D. E. Lesemann, et al. (1995). "Rattlesnake" structure of a filamentous plant RNA virus built of two capsid proteins. Proceedings of the National Academy of Sciences of the United States of America 92(7): 2470-2473. {a} A. N. Belozersky Inst. Physico-Chemical Biol., Moscow State Univ., 119899 Moscow, Russia

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Li, Y., C. Wei, et al. (1995). Infectious in vitro transcripts from cloned cDNA of beet necrotic yellow vein virus RNA3 and RNA4 and their functional study. Science in China Series B Chemistry Life Sciences and Earth Sciences 38(4): 438-447. {a} State Key Lab. Protein Eng., Dep. Biol., Peking Univ., Beijing 100871, China

Agranovsky, A. A., R. Koenig, et al. (1994). Expression of the beet yellows closterovirus capsid protein and p24, a capsid protein homologue, in vitro and in vivo. Journal of General Virology 75(6): 1431-1439. {a} A.N. Belozersky Inst. Physico-Chemical Biol., Moscow State Univ., Moscow 119899, Russia

Balmori, E., D. Gilmer, et al. (1993). Mapping the promoter for subgenomic RNA synthesis on the beet necrotic yellow vein virus RNA 3. Biochimie Paris 75(7): 517-521. {a} Inst. de Biologie Mol. des Plantes du CNRS et de l'Universite Louis Pasteur, 12 rue du General Zimmer, 67084 Strasbourg Cedex, France

Kartesz, J. T. and K. N. Gandhi (1993). Nomenclatural notes for the North American flora: XII. Phytologia 74(1): 43-55. North Carolina Botanical Garden, Dept. of Biology, Coker Hall, University of North Carolina, Chapel Hill, North Carolina 27599-3280, USA

Rogov, V. V., A. V. Karasev, et al. (1993). Purification and some properties of an isolate of beet yellows virus from Ukraine. Journal of Phytopathology Berlin 137(1): 79-88. {a} Dep. Plant Pathol., Univ. California, Riverside, CA 92521-0122, USA

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Fiedor, L., B. V. Rosenbach, et al. (1992). The stereospecific interaction between chlorophylls and chlorophyllase: Possible implication for chlorophyll biosynthesis and degradation. Journal of Biological Chemistry 267(31): 22043-22047. {a} Dep. Biochem., Weizmann Inst. Sci., Rehovot 76100, Israel

Jupin, I., H. Guilley, et al. (1992). Two proteins encoded by beet necrotic yellow vein virus RNA 3 influence symptom phenotype on leaves. Embo 11(2): 479-488.

Kondo, H., T. Maeda, et al. (1992). Host range and properties of odontoglossum ringspot tobamovirus (ORSV) isolated from miniature Cymbidium in Japan. Bulletin of the Research Institute for Bioresources Okayama University 1(1): 21-34. Res. Inst. Bioresour., Okayama Univ., Kurashiki, Japan

Mowat, W. P., S. Dawson, et al. (1991). Narcissus latent, a virus with filamentous particles and a novel combination of properties. Annals Of Applied Biology 119(1): 31-46.

Gonzalez, M., F. L. Di, et al. (1990). Identification of carnation (Dianthus caryophyllus) viruses in Argentina. Fitopatologia Brasileira 15(4): 291-293.

Quillet, L., H. Guilley, et al. (1989). In vitro synthesis of biologically active beet necrotic yellow vein virus RNA. Virology 172(1): 293-301.

Tamada, T. and H. Abe (1989). Evidence that beet necrotic yellow vein virus RNA-4 is essential for efficient transmission by the fungus Polymyxa betae. Journal Of General Virology 70(12): 3391-3398.

Tamada, T., Y. Shirako, et al. (1989). Production and pathogenicity of isolates of beet necrotic yellow vein virus with different numbers of RNA components. Journal Of General Virology 70(12): 3399-3410.

Yu, J. L. and Y. Liu (1988). Research on a strain of carnation mottle virus occurring in China: I. Host range, purification and serology. Virologica Sinica 3(3): 300-305.

Blachowska, E. and M. S. Szyndel (1986). Mild yellowing virus of beets (BMYV) and beet yellowing virus (BYV) on sugar beet plantations. Hodowla Roslin Aklimatyzacja I Nasiennictwo 30(5-6): 19-26.

Koenig, R., W. Burgermeister, et al. (1986). Uniform RNA patterns of beet necrotic yellow vein virus in sugar beet roots, but not in leaves from several plant species. Journal Of General Virology 67(9): 2043-2046.

Tamada, T. and T. Kusume (1497). Evidence that the 75K readthrough protein of beet necrotic yellow vein virus RNA-2 is essential for transmission by the fungus Polymyxa betae. Journal Of General Virology 72(7): 1497-1504.