Polymycoviridae is a growing family of mycoviruses whose members typically have non-conventional capsids and multi-segmented, double-stranded (ds) RNA genomes. Beauveria bassiana polymycovirus (BbPmV) 1 is known to enhance the growth and virulence of its fungal host, the entomopathogenic ascomycete and popular biological control agent B. bassiana. Here we report the complete sequence of BbPmV-3, which has six genomic dsRNA segments. Phylogenetic analysis of RNA-dependent RNA polymerase (RdRp) protein sequences revealed that BbPmV-3 is closely related to the partially sequenced BbPmV-2 but not BbPmV-1. Nevertheless, both BbPmV-3 and BbPmV-1 have similar effects on their respective host isolates ATHUM 4946 and EABb 92/11-Dm, affecting pigmentation, sporulation, and radial growth. Production of conidia and radial growth are significantly enhanced in virus-infected isolates as compared to virus-free isogenic lines on Czapek-Dox complete and minimal media that contain sucrose and sodium nitrate. However, this polymycovirus-mediated effect on growth is dependent on the carbon and nitrogen sources available to the host fungus. Both BbPmV-3 and BbPmV-1 increase growth of ATHUM 4946 and EABb 92/11-Dm when sucrose is replaced by lactose, trehalose, glucose, or glycerol, while the effect is reversed on maltose and fructose. Similarly, both BbPmV-3 and BbPmV-1 decrease growth of ATHUM 4946 and EABb 92/11-Dm when sodium nitrate is replaced by sodium nitrite, potassium nitrate, or ammonium nitrate. In conclusion, the effects of polymycoviruses on B. bassiana are at least partially mediated via its metabolic pathways.
Dothistroma needle blight caused by D. septosporum has emerged in the British Isles as a major threat to Corsican pine, lodgepole pine and Scots pine. There is increasing evidence that mycoviruses can reduce the growth and pathogenicity of fungal plant pathogens. The aim of the present study is to characterise a double-stranded RNA virus found in D. septosporum and investigatefor putative hypovirulence, a common feature noted for mycoviruses, which might be used for biological control to invasion by more aggressive strains of the fungus. To this endthe viral genome was cloned and sequenced revealing four genomic segments, each one containing a single open reading frame (ORF) flanked by 5’ and 3’ untranslated regions. The ORFs encode the RNA-dependent RNA polymerase, the capsid protein, a protein of unknown function and a putative protease, respectively. Phylogenetic analysis of the sequences obtained revealed their similarity to members of the established family Chrysoviridae, genus Alphachrysovirus, which are encapsidated in isometric particles and are known to elicit hypovirulence in their hosts. Subsequently, virus-free and virus-infected isogenic lines were generated to determine any effects of the mycovirus on fungal fitness and pathogenicity. More specifically, the virus-infected isolate is currently being assessed in comparison to the virus-free one in terms of radial growth in solid culture, biomass in liquid culture, pathogenicity in pine trees and production of the mycotoxin dothistromin. In conclusion, this study reports the first mycovirus ever found in D. septosporum.
A new double-stranded (ds) RNA mycovirus has been identified in isolate Ds752-1 of the phytopathogenic fungus Dothistroma septosporum, the causal agent of Dothistroma needle blight, also known as red band needle blight or pine needle blight. Dothistroma septosporum chrysovirus 1 (DsCV-1) is a new member of the genus Alphachrysovirus in the family Chrysoviridae. The DsCV-1 genome comprises four dsRNA elements designated 1, 2, 3, and 4 from largest to smallest. dsRNA1 encodes an RNA-dependent RNA polymerase (RdRP) that is most similar to the RdRP of Erysiphe necator associated chrysovirus 3. dsRNA2 potentially encodes two hypothetical proteins, one of which is small and has no homology to known proteins, and one of which is large with significant sequence similarity to the alphachryso-P3 of other alphachrysoviruses. dsRNA3 and dsRNA4 encode a coat protein (CP) and a putative cysteine protease, respectively. This is the first report of a mycovirus infecting the fungus D. septosporum, and DsCV-1 is one of three Chrysoviridae family members found to possess genomic dsRNAs potentially encoding more than one protein.
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