Gene silencing and gene expression in phytopathogenic fungi using a plant virus vector

Mascia, Tiziana; Nigro, Franco; Abdallah, Ali E.; Ferrara, Massimo; Stradis, A. De; Faedda, Roberto; Palukaitis, Peter; Gallitelli, D.

doi:10.1073/pnas.1315668111

Cited by 44 publications

(43 citation statements)

References 24 publications

(25 reference statements)

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“…Multiple studies in the 1970s suggested that tobacco mosaic virus (TMV) could replicate in and debilitate oomycetes in the genus Pythium (90)(91)(92), which provided early support to the infection of fungus-like organisms by tobamoviruses. More recently, Mascia et al (93) infected Colletotrichum acutatum with a TMV-based vector for virus-induced gene silencing using Agrobacterium-mediated transformation. In addition, tobamo-like viruses were observed naturally infecting cultures of Agaricus bisporus (Basidiomycota) and Plicaria spp.…”

Section: Discussionmentioning

confidence: 99%

Identification of Diverse Mycoviruses through Metatranscriptomics Characterization of the Viromes of Five Major Fungal Plant Pathogens

Marzano

Nelson

Ajayi-Oyetunde

et al. 2016

J Virol

223

212

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Mycoviruses can have a marked effect on natural fungal communities and influence plant health and productivity. However, a comprehensive picture of mycoviral diversity is still lacking. To characterize the viromes of five widely dispersed plant-pathogenic fungi, Colletotrichum truncatum, Macrophomina phaseolina, Diaporthe longicolla, Rhizoctonia solani, and Sclerotinia sclerotiorum, a high-throughput sequencing-based metatranscriptomic approach was used to detect viral sequences. Total RNA and double-stranded RNA (dsRNA) from mycelia and RNA from samples enriched for virus particles were sequenced. Sequence data were assembled de novo, and contigs with predicted amino acid sequence similarities to viruses in the nonredundant protein database were selected. The analysis identified 72 partial or complete genome segments representing 66 previously undescribed mycoviruses. Using primers specific for each viral contig, at least one fungal isolate was identified that contained each virus. The novel mycoviruses showed affinity with 15 distinct lineages: Barnaviridae, Benyviridae, Chrysoviridae, Endornaviridae, Fusariviridae, Hypoviridae, Mononegavirales, Narnaviridae, Ophioviridae, Ourmiavirus, Partitiviridae, Tombusviridae, Totiviridae, Tymoviridae, and Virgaviridae. More than half of the viral sequences were predicted to be members of the Mitovirus genus in the family Narnaviridae, which replicate within mitochondria. Five viral sequences showed strong affinity with three families (Benyviridae, Ophioviridae, and Virgaviridae) that previously contained no mycovirus species. The genomic information provides insight into the diversity and taxonomy of mycoviruses and coevolution of mycoviruses and their fungal hosts. IMPORTANCEPlant-pathogenic fungi reduce crop yields, which affects food security worldwide. Plant host resistance is considered a sustainable disease management option but may often be incomplete or lacking for some crops to certain fungal pathogens or strains. In addition, the rising issues of fungicide resistance demand alternative strategies to reduce the negative impacts of fungal pathogens. Those fungus-infecting viruses (mycoviruses) that attenuate fungal virulence may be welcome additions for mitigation of plant diseases. By high-throughput sequencing of the RNAs from 275 isolates of five fungal plant pathogens, 66 previously undescribed mycoviruses were identified. In addition to identifying new potential biological control agents, these results expand the grand view of the diversity of mycoviruses and provide possible insights into the importance of intracellular and extracellular transmission in fungus-virus coevolution. R ecent metatranscriptomic and metagenomic studies of animals, fungi, insects, plants, and environmental samples have shown that mycoviruses are ubiquitous in nature (1-10). Analyses of viral metagenomes (i.e., viromes) of environmental samples suggest that the field of virology has discovered less than 1% of the existing viral diversity, and the rate of discovery by metage...

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Section: Discussionmentioning

confidence: 99%

Identification of Diverse Mycoviruses through Metatranscriptomics Characterization of the Viromes of Five Major Fungal Plant Pathogens

Marzano

Nelson

Ajayi-Oyetunde

et al. 2016

J Virol

223

212

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“…At ten days after TRV treatment, plants were challenged with either the V. dahliae race 1 strain JR2 , or an Ave1 deletion mutant (V. dahliae JR2△Ave1;, and inspected for Verticillium wilt symptoms (stunting and wilting) up to 14 days post inoculation (dpi). As expected, no significant disease symptoms were observed on TRV::GUStreated plants that were inoculated with the wild-type race 1 V. dahliae strain (Song et al, 2016 It was recently demonstrated that Tobacco mosaic virus (TMV) may infect fungi in addition to plants, remaining for up to six subcultures, and also persisted in plants infected by the virus-infected fungus (Mascia et al, 2014 Figure S1A). Furthermore, the fungal isolates were used to infect Ve1 tomato plants and tomato plants that lack…”

Section: Tobacco Rattle Virus (Trv)-based Virus-induced Gene Silencinsupporting

confidence: 64%

Recognition of Verticillium effector Ave1 by tomato immune receptor Ve1 mediates Verticillium resistance in diverse plant species

Song¹

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“…Recently, however, it was shown that TMV could indeed infect and replicate in fungi (Fig. 1), specifically three species of Colletotrichum ( C. acutatum , C. clavatum , and C. theobromicola ) 21 . Infection by TMV did not alter the growth rate, morphology or pathogenicity of C. acutatum , while virus re-isolated from C. acutatum was able to infect plants.…”

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confidence: 91%

“… 21 The fluorescence was maintained for six passages, but was lost in most monoconidial cultures on the seventh passage. Furthermore, infection of C. acutatum expressing a transgenic GFP gene by TMV-GFP resulted in the silencing of both the GFP transgene and the virally-expressed GFP gene, which again persisted for six passages, with the transgene fluorescence regained in a few of the monoconidial cultures at the seventh passage 21 . TMV-GFP infectious to plants was not recoverable from the fungus at the seventh passage.…”

mentioning

confidence: 99%

“…Thus, TMV and several other plant viruses, such as potato virus X and tomato bushy stunt virus, are referred to as being highly contact transmissible plant viruses, vs. those plant viruses that can be transmitted by rubbing high concentrations of inoculum onto leaves, but not by leaves contacting against each 23 . Infection of fungi by TMV was shown to be an efficient process, approaching nearly 100% 21 . Hence, it is likely that when hyphae grow in/through a medium, some cell membrane damage occurs and the virus enters the cell (Fig.…”

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confidence: 99%

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Mascia

Gallitelli

Palukaitis

2014

Mobile Genetic Elements

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Functional genomics in plants has been facilitated greatly by the use of plant viruses to carry segments of host genes that can then promote the silencing of the RNAs expressed from the corresponding host genes; a process called virus-induced gene silencing (VIGS). The silencing of genes in filamentous fungi is either technically more problematic or labor-intensive, especially if transgenic plants need to be generated first. However, a recent paper from our team demonstrated that a plant virus could infect three related fungal species, as well as express a reporter gene ectopically, and also silence the correspondingly expressed reporter transgene. The gene expression and RNA silencing of the reporter gene was maintained for six passages in culture and also persisted in plants infected by the virus-infected fungus. Here, we consider how the virus can enter and migrate within the fungus, whether the virus can move back and forth between the fungus and the plant and the ramifications of this, the prospects for VIGS being used to silence fungal endogenes and possible biotechnological or therapeutic applications of using plant viruses for expressing foreign proteins in fungi or silencing fungal endogenes.

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Gene silencing and gene expression in phytopathogenic fungi using a plant virus vector

Cited by 44 publications

References 24 publications

Identification of Diverse Mycoviruses through Metatranscriptomics Characterization of the Viromes of Five Major Fungal Plant Pathogens

Identification of Diverse Mycoviruses through Metatranscriptomics Characterization of the Viromes of Five Major Fungal Plant Pathogens

Recognition of Verticillium effector Ave1 by tomato immune receptor Ve1 mediates Verticillium resistance in diverse plant species

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