References: Fusariviridae


Abdoulaye, A. H., Jia, J., Abbas, A., Hai, D., Cheng, J., Fu, Y., Lin, Y., Jiang, D. & Xie, J. (2022). Fusarivirus accessory helicases present an evolutionary link for viruses infecting plants and fungi. Virol Sin 37, 427-436. [PubMed]

Fukunishi, M., Sasai, S., Tojo, M. & Mochizuki, T. (2021). Novel fusari- and toti-like viruses, with probable different origins, in the plant pathogenic oomycete Globisporangium ultimum. Viruses 13, e1931. [PubMed]

Gao, F., Anane, R. F., Liu, Z., Zi, S., Li, S., Yang, Z., Chu, B., Chen, X., Chen, Z., Zhao, M. (2023). Complete genome sequence of a novel fusarivirus from the phytopathogenic fungus Fusarium sp. . Arch Virol 168, 248. [PubMed]

Gao, Z., Cai, L., Liu, M., Wang, X., Yang, J., An, H., Deng, Q., Zhang, S. & Fang, S. (2021). A novel previously undescribed fusarivirus from the phytopathogenic fungus Setosphaeria turcica. Arch Virol 166, 665-669. [PubMed]

Honda, S., Eusebio-Cope, A., Miyashita, S., Yokoyama, A., Aulia, A., Shahi, S., Kondo, H. & Suzuki, N. (2020). Establishment of Neurospora crassa as a model organism for fungal virology. Nat Commun 11, 5627. [PubMed]

Kwon, S. J., Lim, W. S., Park, S. H., Park, M. R. & Kim, K. H. (2007). Molecular characterization of a dsRNA mycovirus, Fusarium graminearum virus-DK21, which is phylogenetically related to hypoviruses but has a genome organization and gene expression strategy resembling those of plant potex-like viruses. Mol Cells 23, 304-15. [PubMed]

Liu, C., Guo, M., Wang, J., Sun, Y., Bian, Y. & Xu, Z. (2023). Prevalence and diversity of mycoviruses occurring in Chinese Lentinula edodes germplasm resource. Virology 582, 71-82. [PubMed]

Liu, R., Cheng, J., Fu, Y., Jiang, D. & Xie, J. (2015). Molecular characterization of a novel positive-sense, single-stranded RNA mycovirus infecting the plant pathogenic fungus Sclerotinia sclerotiorum. Viruses 7, 2470-84. [PubMed]

Neri, U., Wolf, Y. I., Roux, S., Camargo, A. P., Lee, B., Kazlauskas, D., Chen, I. M., Ivanova, N., Zeigler Allen, L., Paez-Espino, D., Bryant, D. A., Bhaya, D., Krupovic, M., Dolja, V. V., Kyrpides, N. C., Koonin, E. V. & Gophna, U. (2022). Expansion of the global RNA virome reveals diverse clades of bacteriophages. Cell 185, 4023-4037.e18. [PubMed]

Nerva, L., Ciuffo, M., Vallino, M., Margaria, P., Varese, G. C., Gnavi, G. & Turina, M. (2016). Multiple approaches for the detection and characterization of viral and plasmid symbionts from a collection of marine fungi. Virus Res 219, 22-38. [PubMed]

Nerva, L., Varese, G. C., Falk, B. W. & Turina, M. (2017). Mycoviruses of an endophytic fungus can replicate in plant cells: evolutionary implications. Sci Rep 7, 1908. [PubMed]

Paudel, B., Pedersen, C., Yen, Y. & Marzano, S. L. (2022). Fusarium graminearum virus-1 strain FgV1-SD4 infection eliminates mycotoxin deoxynivalenol synthesis by Fusarium graminearum in FHB. Microorganisms 10, e1484. [PubMed]

Picarelli, M. A. S. C., Forgia, M., Rivas, E. B., Nerva, L., Chiapello, M., Turina, M. & Colariccio, A. (2019). Extreme diversity of mycoviruses present in isolates of Rhizoctonia solani AG2-2 LP from Zoysia japonica from Brazil. Front Cell Infect Microbiol 9, 244. [PubMed]

Sahin, E., Keskin, E. & Akata, I. (2021). The unique genome organization of two novel fusariviruses hosted by the true morel mushroom Morchella esculenta. Virus Res 302, 198486. [PubMed]

Son, M., Lee, K. M., Yu, J., Kang, M., Park, J. M., Kwon, S. J. & Kim, K. H. (2013). The HEX1 gene of Fusarium graminearum is required for fungal asexual reproduction and pathogenesis and for efficient viral RNA accumulation of Fusarium graminearum virus 1. J Virol 87, 10356-67. [PubMed]

Zhang, R., Liu, S., Chiba, S., Kondo, H., Kanematsu, S. & Suzuki, N. (2014). A novel single-stranded RNA virus isolated from a phytopathogenic filamentous fungus, Rosellinia necatrix, with similarity to hypo-like viruses. Front Microbiol 5, 360. [PubMed]