Recent studies illustrate that fungi as virus hosts provides a unique platform for hunting viruses and exploring virus/virus and virus/host interactions. Such studies have revealed a number of as-yet-unreported viruses and virus/virus interactions. Among them is a unique intimate relationship between a (+)ssRNA virus, yado-kari virus (YkV1) and an unrelated dsRNA virus, yado-nushi virus (YnV1). YkV1 dsRNA, a replicated form of YkV1, and RNA-dependent RNA polymerase, are trans-encapsidated by the capsid protein of YnV1. While YnV1 can complete its replication cycle, YkV1 relies on YnV1 for its viability. We previously proposed a model in which YkV1 diverts YnV1 capsids as the replication sites. YkV1 is neither satellite virus nor satellite RNA, because YkV1 appears to encode functional RdRp and enhances YnV1 accumulation. This represents a unique mutualistic virus/virus interplay and similar relations in other virus/host fungus systems are detectable. We propose to establish the family Yadokariviridae that accommodates YkV1 and recently discovered viruses phylogenetically related to YkV1. This article overviews what is known and unknown about the YkV1/YnV1 interactions. Also discussed are the YnV1 Phytoreo_S7 and YkV1 2A-like domains that may have been captured via horizontal transfer during the course of evolution and are conserved across extant diverse RNA viruses. Lastly, evolutionary scenarios are envisioned for YkV1 and YnV1.
The prototype hypovirus CHV1-EP713 causes virulence attenuation and severe suppression of asexual sporulation and pigmentation in its host, the chestnut blight fungus, Cryphonectria parasitica. We identified a factor associated with symptom induction in C. parasitica using a transformation of C. parasitica strain EP155 with a full-length cDNA clone from a mild mutant virus strain, Cys(72). This was accomplished by using mutagenesis of the transformant fungal strain TCys (
Hjarre's disease (Coligranuloma) in commercial chickens was investigated and detected in 5 layer flocks out of 47 outbreaks based on clinical, pathological, microbiological and therapeutical findings. The investigation areas were at Dinajpur and Nilphamari districts, but the laboratory examinations were conducted at Dinajpur Government Veterinary College, Dinajpur, Bangladesh. The flocks had 441, 212, 690, 5400 and 735 birds aged between 26 to 64 weeks and reared in cages. The clinical signs of the affected birds varied markedly from farm to farm and diarrhoea, depression, soiled vent, reduces egg production, loss of body condition and death were recorded. The morbidity rate was around 100%, but the mortality rate was 3-9%. At necropsy the birds showed characteristics nodular lesions on the serosal surface of the intestine, uterus, mesentery and in liver. The affected organs were processed for the bacteriological examination and the organisms were isolated and identified without typification. Gram stained impression smears from the necrotic areas of the nodules revealed gram negative organisms which were isolated by culturing using different agar media and identified by their colony characteristics including biochemical reaction in differential media. No acid fast organisms found on acid fast staining of the impression smears. The collected organs were processed and stained for the histopathological study, where granulomatous inflammation and the characteristic caseation necrosis were recorded. The flocks were treated individually either with colistin sulphate, or fluoroquinolones, or oxytetracycline considering the apparently presence of concurrent infection. The present findings indicated that the poultry is sensitive to colistin sulphate.
The type virus of the family Hypoviridae, Cryphonectria hypovirus 1 strain EP713 (CHV1-EP713), infects Cryphonectria parasitica, the filamentous causal fungus of chestnut blight, and reduces its virulence. This pathosystem serves as a model to study fungus-mycovirus interactions. We previously developed a genetic screening protocol for host factors associated with symptom induction by CHV1-EP713 and its mutants. In the procedure the standard field fungal isolate EP155 was transformed by cDNA from a mild hypovirus mutant Cys(72), launching virus infection, and mutagenized by random plasmid insertion with pHygR conferring hygromycin resistance. We now report an extension of the study to characterize different mutant strains, with different phenotypes than their parental strain TCys(72)-1. TCys(72)-1 is moderately reduced in pigmentation and sporulation compared to the uninfected wild-type strain EP155. Mutants sfb1, sfb2 and k202 were characterized biologically and molecularly in comparison to the previously isolated mutant (namA) and the parental strain. These mutants harbored one (sfb1) or more copies (sfb2 and k202) of the mutagenic plasmid, pHygR. The three mutants had similar biological attributes; that is, vegetative growth rate, conidiation and virulence (assay on apples) was reduced on potato dextrose agar media, relative to the parental strain and pigmentation was the same or slightly increased. Interestingly, viral dsRNA accumulation levels were apparently unaltered in these mutants. The screening method was efficient for mining fungal mutants with unusual hypovirus symptoms. Further, characterization of the mutants provides interesting insights into symptom induction by the hypovirus.
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