ICTV Report

Further reading: Benyviridae

 

Acosta-Leal, R., Bryan, B. K., Smith, J. T. & Rush, C. M. (2010).  Breakdown of host resistance by independent evolutionary lineages of Beet necrotic yellow vein virus involves a parallel c/u mutation in its p25 gene. Phytopathology 100, 127-133. [PubMed]

Commandeur, U., Koenig, R., Manteuffel, R., Torrance, L., Luddecke, P. & 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. [PubMed]

Delbianco, A., Lanzoni, C., Klein, E., Rubies Autonell, C., Gilmer, D. & Ratti, C. (2013).  Agroinoculation of Beet necrotic yellow vein virus cDNA clones results in plant systemic infection and efficient Polymyxa betae transmission. Mol Plant Pathol 14, 422-428. [PubMed]

Erhardt, M., Dunoyer, P., Guilley, H., Richards, K., Jonard, G. & Bouzoubaa, S. (2001).  Beet necrotic yellow vein virus particles localize to mitochondria during infection. Virology 286, 256-262. [PubMed]

Erhardt, M., Morant, M., Ritzenthaler, C., Stussi-Garaud, C., Guilley, H., Richards, K., Jonard, G., Bouzoubaa, S. & 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, 520-528. [PubMed]

Erhardt, M., Vetter, G., Gilmer, D., Bouzoubaa, S., Richards, K., Jonard, G. & Guilley, H. (2005).  Subcellular localization of the Triple Gene Block movement proteins of Beet necrotic yellow vein virus by electron microscopy. Virology 340, 155-166. [PubMed]

Flobinus, A., Hleibieh, K., Klein, E., Ratti, C., Bouzoubaa, S. & Gilmer, D. (2016).  A Viral Noncoding RNA Complements a Weakened Viral RNA Silencing Suppressor and Promotes Efficient Systemic Host Infection. Viruses 8. [PubMed

Peltier, C., Schmidlin, L., Klein, E., Taconnat, L., Prinsen, E., Erhardt, M., Heintz, D., Weyens, G., Lefebvre, M., Renou, J. P. & Gilmer, D. (2011).  Expression of the Beet necrotic yellow vein virus p25 protein induces hormonal changes and a root branching phenotype in Arabidopsis thaliana. Transgenic Res 20, 443-466. [PubMed]

Rahim, M. D., Andika, I. B., Han, C., Kondo, H. & Tamada, T. (2007).  RNA4-encoded p31 of beet necrotic yellow vein virus is involved in efficient vector transmission, symptom severity and silencing suppression in roots. J Gen Virol 88, 1611-1619. [PubMed]

Schirmer, A., Link, D., Cognat, V., Moury, B., Beuve, M., Meunier, A., Bragard, C., Gilmer, D. & Lemaire, O. (2005).  Phylogenetic analysis of isolates of Beet necrotic yellow vein virus collected worldwide. J Gen Virol 86, 2897-2911. [PubMed]

Valentin, C., Dunoyer, P., Vetter, G., Schalk, C., Dietrich, A. & Bouzoubaa, S. (2005).  Molecular basis for mitochondrial localization of viral particles during beet necrotic yellow vein virus infection. J Virol 79, 9991-10002. [PubMed]