Showing papers on "Mycovirus published in 2002"

Double-stranded RNA mycovirus from Fusarium graminearum.

Abstract: Double-stranded RNA (dsRNA) viruses in some fungi are associated with hypovirulence and have been used or proposed as biological control agents. We isolated 7.5-kb dsRNAs from 13 of 286 field strains of Fusarium graminearum isolated from maize in Korea. One of these strains, DK21, was examined in more detail. This strain had pronounced morphological changes, including reduction in mycelial growth, increased pigmentation, reduced virulence towards wheat, and decreased (60-fold) production of trichothecene mycotoxins. The presence or absence of the 7.5-kb dsRNA was correlated with the changes in pathogenicity and morphology. The dsRNA could be transferred to virus-free strains by hyphal fusion, and the recipient strain acquired the virus-associated phenotype of the donor strain. The dsRNA was transmitted to approximately 50% of the conidia, and only colonies resulting from conidia carrying the mycovirus had the virus-associated phenotype. Partial nucleotide sequences of the purified dsRNA identify an RNA-dependent RNA polymerase sequence and an ATP-dependent helicase that are closely related to those of Cryphonectria hypovirus and Barley yellow mosaic virus. Collectively, these results suggest that this dsRNA isolated from F. graminearum encodes traits for hypovirulence.

Extending chestnut blight hypovirus host range within diaporthales by biolistic delivery of viral cDNA

Abstract: Biolistic bombardment was used to successfully transform three phytopathogenic fungal species with an infectious cDNA clone of the prototypic hypovirus, CHV1-EP713, a genetic element responsible for the virulence attenuation (hypovirulence) of the chestnut blight fungus, Cryphonectria parasitica. The fungal species included two strains each of C. parasitica and Valsa ceratosperma, as well as one strain of Phomopsis G-type (teleomorph Diaporthe Nitschke); all are members of the order Diaporthales but classified into three different genera. A subset of transformants for each of the fungal species contained CHV1-EP713 dsRNA derived from chromosomally integrated viral cDNA. As has been reported for CHV1-EP713 infection of the natural host C parasitica, biolistic introduction of CHV1-EP713 into the new fungal hosts V ceratosperma and Phomopsis G-type resulted in altered colony morphology and, more importantly, reduced virulence. These results suggest a potential for hypoviruses as biological control agents in plant-infecting fungal pathogens other than the chestnut blight fungus and closely related species. In addition, the particle delivery technique offers a convenient means of transmitting hypoviruses to potential host fungi that provides new avenues for fundamental mycovirus research and may have practical applications for conferring hypovirulence directly on infected plants in the field.

Characterization of Mycoviruses and Analyses of Chitinase Secretion in the Biocontrol Fungus Metarhizium anisopliae

Abstract: Metarhizium anisopliae is the best-characterized entomopathogen and is used to control insect pests in sugar cane plantations in Brazil on a commercial scale. We have previously reported the infection of some M. anisopliae strains by dsRNA mycoviruses. Here we describe the purification and characterization of the viruses (MaV-A1, MaV-M5, MaV-RJ) in terms of dsRNA content, capsid proteins, electron microscopy, Western blot, and hybridization patterns. One spontaneous mutant lost some of the high molecular weight dsRNA components and showed significant alterations in colony morphology and spore production, suggesting that viral genes interfere with fungal phenotype. A comparison between dsRNA mycovirus-free and infected M. anisopliae isolates showed that virus-free isolates have increased endochitinase secretion. By comparing the following parameters: the buoyant density in CsCl of the presumed virions; the number and estimated molecular weight of the dsRNA components and the molecular mass of the capsid proteins to other mycoviruses previously described, we suggest the inclusion of MaV-A1 and MaV-M5 in the family Totiviridae and MaV-RJ in the family Partitiviridae.