50-Plus Years of Fungal Viruses

50-Plus Years of Fungal Viruses

Virology ∎ (∎∎∎∎) ∎∎∎–∎∎∎ Contents lists available at ScienceDirect Virology journal homepage: www.elsevier.com/locate/yviro 50-plus years of fungal viruses Said A. Ghabrial a,n, José R. Castón b, Daohong Jiang c, Max L. Nibert d, Nobuhiro Suzuki e a Plant Pathology Department, University of Kentucky, Lexington, KY, USA b Department of Structure of Macromolecules, Centro Nacional Biotecnologıa/CSIC, Campus de Cantoblanco, Madrid, Spain c State Key Lab of Agricultural Microbiology, Huazhong Agricultural University, Wuhan, Hubei Province, PR China d Department of Microbiology and Immunobiology, Harvard Medical School, Boston, MA, USA e Institute of Plant Science and Resources, Okayama University, Kurashiki, Okayama, Japan article info abstract Article history: Mycoviruses are widespread in all major taxa of fungi. They are transmitted intracellularly during cell Received 9 January 2015 division, sporogenesis, and/or cell-to-cell fusion (hyphal anastomosis), and thus their life cycles generally Returned to author for revisions lack an extracellular phase. Their natural host ranges are limited to individuals within the same or 31 January 2015 closely related vegetative compatibility groups, although recent advances have established expanded Accepted 19 February 2015 experimental host ranges for some mycoviruses. Most known mycoviruses have dsRNA genomes packaged in isometric particles, but an increasing number of positive- or negative-strand ssRNA and Keywords: ssDNA viruses have been isolated and characterized. Although many mycoviruses do not have marked Mycoviruses effects on their hosts, those that reduce the virulence of their phytopathogenic fungal hosts are of Totiviridae considerable interest for development of novel biocontrol strategies. Mycoviruses that infect endophytic Chrysoviridae fungi and those that encode killer toxins are also of special interest. Structural analyses of mycoviruses Partitiviridae dsRNA viruses have promoted better understanding of virus assembly, function, and evolution. Hypovirulence & 2015 Elsevier Inc. All rights reserved. Biological control Capsid structure Contents Introduction and historical highlights . 2 Diversity and taxonomic considerations . 3 Totiviridae (dsRNA) . 3 Partitiviridae (dsRNA) . 3 Megabirnaviridae (dsRNA) . 3 Chrysoviridae (dsRNA) . 3 Quadriviridae (dsRNA) . 4 Reoviridae (dsRNA) . 4 Endornaviridae (dsRNA/ssRNA). 4 Alphaflexiviridae (þRNA)............................................................................................... 4 Barnaviridae (þRNA).................................................................................................. 4 Gammaflexiviridae (þRNA)............................................................................................. 5 Hypoviridae (þRNA)................................................................................................... 5 Narnaviridae (þRNA).................................................................................................. 5 Mycomononegaviridae (ÀRNA).......................................................................................... 5 Reverse-transcribing mycoviruses (þRNA-RT)............................................................................... 5 Unclassifiedmycoviruses ............................................................................................... 5 Structural features. 6 Totiviridae........................................................................................................... 6 Partitiviridae . 7 Chrysoviridae. 7 dsRNA and RdRp packaging within mycovirus capsids . 8 n Corresponding author. E-mail address: [email protected] (S.A. Ghabrial). http://dx.doi.org/10.1016/j.virol.2015.02.034 0042-6822/& 2015 Elsevier Inc. All rights reserved. Please cite this article as: Ghabrial, S.A., et al., 50-plus years of fungal viruses. Virology (2015), http://dx.doi.org/10.1016/j. virol.2015.02.034i 2 S.A. Ghabrial et al. / Virology ∎ (∎∎∎∎) ∎∎∎–∎∎∎ Virus-induced hypovirulence . 8 Viruses of chestnut blight fungus Cryphonectria parasitica and recent advances in related fields...................................... 8 Hypovirulent strains of white mold fungus Sclerotinia sclerotiorum.............................................................. 9 Hypovirulent strains of white root rot fungus Rosellinia necatrix ............................................................... 10 Concluding remarks . 10 References.............................................................................................................. 10 Introduction and historical highlights traits relevant to penicillin production. Because mycoviruses with possible exception of mitoviruses are reportedly eliminated from Knowledge of fungal viruses (mycoviruses) has expanded expo- some higher ascomycetes by sexual reproduction (Khalifa and nentially during the past 53 years, since the first definitive report of Pearson, 2013; McFadden et al., 1983; Xie et al., 2006), some of the viruses infecting the cultivated button mushroom Agaricus bisporus ascospore-derived progenies of P. chrysogenum are likely to be virus- (Hollings, 1962). A perception that all mycoviruses are cryptic dsRNA free, thus potentially improving strain stability. viruses has substantially changed as we have learned more about The discovery of toxin-secreting strains of the ascomycetous their genome diversity and potential impacts on their fungal hosts. In yeast Saccharomyces cerevisiae, and their phenotypic association the age of a catastrophic Ebola outbreak, it is refreshing to write with the presence of dsRNA viruses (Bevan et al., 1973), marked instead about mycoviruses and their potential benefits to humans; the beginning of research into yeast virology in the early 1970s. It yes, not all viruses are evil, and some viruses may even enhance the was then shown that certain yeast strains secrete protein toxins value, beauty, or health of their hosts (Kernbauer et al., 2014; Lesnaw that are lethal to sensitive strains. The toxin-secreting strains were and Ghabrial, 2000). Mycoviruses in particular could conceivably be designated “killer yeasts” and the secreted proteins, “killer toxins” exploited for biological control of their natural fungal hosts that are (reviewed by Schmitt and Breinig (2006) and Wickner et al. pathogenic for plants. In the past, such applications of mycoviruses (2013)). Shortly after this discovery, it became apparent that were markedly curtailed by technical difficulties in gaining an insight toxin-producing killer strains are not limited to S. cerevisiae, but into their biology and structure, but these limitations have been are also found among other yeast and fungal taxa, including decreasing with the advent of new research approaches (Dawe and Hanseniaspora uvarum, Ustilago maydis, and Zygosaccharomyces Nuss, 2013; Xie and Jiang, 2014). bailii (Park et al., 1996; Schmitt and Neuhausen, 1994). The killer The economically important dieback disease of A. bisporus,a phenotype is in some cases associated with dsRNA mycoviruses basidiomycete, was first identified in 1948 in a mushroom house but can also be encoded by linear dsDNA plasmids (in Kluyver- owned by the La France brothers of Pennsylvania (Sinden and omyces lactis and Pichia acacia) or chromosomally (in Williopsis Hauser, 1950). The disease hence was called La France disease, and californica and Pichia farinose). The killer toxins from some yeast similar diseases were reported soon afterward from Europe, Japan, and smut strains are encoded by satellite dsRNAs, which are and Australia. In 1962, Hollings observed and isolated at least dependent on helper dsRNA viruses from family Totiviridae for three types of virus particles from the sporophores of diseased replication and encapsidation. Although no satellite dsRNAs have mushrooms and demonstrated disease transmission to symptom- been reported in association with virus infection of the filamen- less mushrooms by the isolated particles, marking the dawn of tous ascomycete H. victoriae (Ghabrial and Nibert, 2009), the modern mycovirology. There were, of course, prior clues to the secreted protein toxin victoriocin, encoded by host chromosomal existence of mycoviruses, including the discovery in 1959 of the gene vin, is structurally similar to killer toxin-encoding genes (de transmissible disease of Helminthosporium (Cochliobolus) victoriae, Sá et al., 2010a, 2010b). Establishing that secreted killer toxins are the filamentous ascomycete that causes Victoria blight of oats and expressed as preprotoxins has substantially strengthened our other grains (reviewed by Ghabrial et al. (2013)). It is important to knowledge in many areas of biology and provided deeper under- note, however, that despite their relatively recent discovery, fungal standing of essential cellular mechanisms such as posttransla- viruses are believed to be of ancient origins. tional processing along the secretory pathway. The discovery that viral double-stranded (ds)RNA was responsible Fungal viruses are often associated with symptomless infec- for the interferon-inducing activities of culture filtrates from several tions of their hosts. They are not known to have natural vectors species of ascomycetous molds in genus Penicillium, including (e.g., arthropods or annelids), are commonly transmitted horizon- Penicillium chrysogenum, greatly stimulated the search for mycov- tally in nature by intracellular means (hyphal anastomosis), and iruses and reflected the economic and medical importance of fungi in are transmitted vertically in nature

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