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References (VIIIth ICTV Report)

Commandeur, U., Koenig, R., Manteuffel, R., Torrance, L., Lüddecke, P. and Frank, R. (1994). Location, size and complexity of epitopes on the coat protein of beet necrotic yellow vein virus studied by means of synthetic overlapping peptides. Virology, 198, 282-287.

Erhardt, M., Morant, M., Ritzenthaler, C., Stussi-Garaud, C., Guilley, H., Richards, K, Jonard, G., Bouzoubaa, S. and Gilmer, D. (2000). P42 movement protein of Beet necrotic yellow vein virus is targeted by the movement proteins P13 and P15 to punctate bodies associated with plasmodesmata. Mol. Plant Microbe Interact., 13, 520528.

Erhardt, M., Dunoyer, P., Guilley, H., Richards, K., Jonard, G. and Bouzoubaa, S. (2001). Beet necrotic yellow vein virus particles localize to mitochondria during infection. Virology, 286, 256-62.

Haeberle, A.M., Stussi-Garaud, C., Schmitt, C., Garaud, J.C., Richards, K.E., Guilley, H. and Jonard, G. (1994). Detection by immunogold labelling of P75 readthrough protein near an extremity of Beet necrotic yellow vein virus particles. Arch. Virol., 134, 195-203.

Helm, A., Fritsch, C., Richards, K.E., Guilley, H. and Jonard, G. (1997). Evidence for in vitro and in vivo autocatalytic processing of the primary translation product of Beet necrotic yellow vein virus RNA 1 by a papain-like proteinase. Arch. Virol., 142, 1051-1058.

Hirano, S., Kondo, H., Maeda, T. and Tamada, T. (1999). Burdock mottle virus has a high genome similarity to beet necrotic yellow vein virus. Proceedings of the Fourth Syrnposium of the International Working Group on Plant Viruses with Fungal Vectors, Asilomar, October 5-8,1999, (J.L. Sherwood and C.M. Rush, eds), pp 33-36.

Kiguchi, T., Saito, M. and Tamada, T. (1996). Nucleotide sequence analysis of RNA-5 of five isolates of Beet necrotic yellow vein virus and the identity of a deletion mutant. J. Gen. Virol., 77, 575-580.

Koenig, R., Haeberle, A.M. and Commandeur, U. (1997). Detection and characterization of a distinct type of beet necrotic yellow vein virus RNA 5 in a sugarbeet growing area in Europe. Arch. Virol., 142, 1499-1504.

Koenig, R., Jarausch, W., Li, Y., Commandeur, U., Burgermeister, W., Gehrke, M. and Luddecke, P. (1991). Effect of recombinant Beet necrotic yellow vein virus with different RNA compositions on mechanically inoculated sugarbeets. J. Gen. Virol., 72, 2243-2246.

Koenig, R., Luddecke, P. and Haeberle, A.M. (1995). Detection of Beet necrotic yellow vein virus strains, variants and mixed infections by examining single-strand conformation polymorphisms of immunocapture RT-PCR products. J. Gen. Virol., 76, 2051-2055.

Lauber, E., Bleykasten-Grosshans, C., Erhardt, M., Bouzoubaa, S., Jonard, G., Richards. K.E. and Guilley, H. (1998). Cell-to-cell movement of Beet necrotic yellow vein virus: 1. Heterologous complementation experiments provide evidence for specific interactions among the triple gene block proteins. Mol. Plant Microbe Interact., 11, 618-25.

Lee, L., Telford, E.B., Batten, J.S., Scholthof, K.B. and Rush, C.M. (2001). Complete nucleotide sequence and genome organization of Beet soilborne mosaic virus, a proposed member of the genus Benyvirus. Arch. Virol., 146, 2443-2453.

Richards, K. and Tamada, T. (1992). Mapping functions on the multipartite genome of beet necrotic yellow vein virus. Ann. Rev. Phytopathol., 30, 291-313.

Tamada, T. and Abe, H. (1989). Evidence that beet necrotic yellow vein virus RNA-4 is essential for efficient transmission by the fungus Polymyxa betae. J. Gen. Virol., 70, 3391-3398.

Tamada, T., Schmitt, C., Saito, M., Guilley, H., Richards, K. and Jonard, G. (1996). High resolution analysis of the readthrough domain of Beet necrotic yellow vein virus readthrough protein: a KTER motif is important for efficient transmission of the virus by Polymyxa betae. J. Gen. Virol., 77, 1359-1367

Contributed by

Koenig, R. and Lesemann, D.-E.

Additional References

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