Double-Stranded RNAs (dsRNAs) as a Sustainable Tool against Gray Mold (Botrytis cinerea) in Grapevine: Effectiveness of Different Application Methods in an Open-Air Environment

Nerva, Luca; Sandrini, Marco; Gambino, Giorgio; Chitarra, Walter

doi:10.3390/biom10020200

Cited by 69 publications

(80 citation statements)

References 65 publications

(81 reference statements)

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“…Furthermore, the functionality of absorbed exogenous RNAi molecules offers excellent adaptability and flexibility in securing the required effects on gene expression of fungi, even without the need to genetically modify the targeted pathogen [ 11 , 32 ]. This homology-based gene silencing stimulated by transgenes (co-suppression), antisense, or dsRNAs has been demonstrated in several plant pathogenic fungi/oomycetes, including different mold fungi, such as Botrytis cinerea , Neurospora crassa , and Sclerotinia sclerotiorum [ 11 , 18 , 33 , 34 ]; blast, blight, and rust fungi, such as Fusarium asiaticum , Fusarium graminearum , Magnaporthe oryzae, and Puccinia striiformis f. sp. tritici [ 17 , 35 , 36 , 37 , 38 ]; mildew, and others, such as Blumeria graminis , Cochliobolus sativus, and Venturia inaequalis [ 39 , 40 , 41 ].…”

Section: Rnai For Resistance Against Plant Pathogenic Fungimentioning

confidence: 99%

“…The E. coli HT115 (DE3) harbors the pro-phage λDE3 encoding the Isopropyl β-D-1-thiogalactopyranoside (IPTG) inducible T7 polymerase gene for dsRNA transcription [ 101 , 113 , 115 , 116 ]. Even though, the bacterial production systems may contain bacterial homologous DNA molecules; that may affect the RNA quality and applicability, crude extracts of dsRNA can be applied on plants to test its efficiency against plant pathogens and pests [ 18 , 117 ]. Researchers demonstrated that bacterially expressed dsRNAs can be used to induce RNAi in fungus [ 18 ], virus [ 49 ], worms [ 118 ], and in insect pests [ 56 , 119 ].…”

Section: Small Rna Production Technologiesmentioning

confidence: 99%

“…Consequently, RNAi is getting research attention also as an environmentally friendly alternative to agricultural pest and pathogen control. In fact, because of its sequence-dependent mode of action, RNAi technology has an enormous range of potential as plant protection application, including control against insects [ 13 ], mite pests [ 14 , 15 ], plant pathogens [ 11 , 16 , 17 , 18 ], nematodes, and weeds [ 10 , 19 , 20 , 21 ].…”

Section: Introductionmentioning

confidence: 99%

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RNA Interference Strategies for Future Management of Plant Pathogenic Fungi: Prospects and Challenges

Gebremichael

Haile

Negrini

et al. 2021

Plants

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Plant pathogenic fungi are the largest group of disease-causing agents on crop plants and represent a persistent and significant threat to agriculture worldwide. Conventional approaches based on the use of pesticides raise social concern for the impact on the environment and human health and alternative control methods are urgently needed. The rapid improvement and extensive implementation of RNA interference (RNAi) technology for various model and non-model organisms has provided the initial framework to adapt this post-transcriptional gene silencing technology for the management of fungal pathogens. Recent studies showed that the exogenous application of double-stranded RNA (dsRNA) molecules on plants targeting fungal growth and virulence-related genes provided disease attenuation of pathogens like Botrytis cinerea, Sclerotinia sclerotiorum and Fusarium graminearum in different hosts. Such results highlight that the exogenous RNAi holds great potential for RNAi-mediated plant pathogenic fungal disease control. Production of dsRNA can be possible by using either in-vitro or in-vivo synthesis. In this review, we describe exogenous RNAi involved in plant pathogenic fungi and discuss dsRNA production, formulation, and RNAi delivery methods. Potential challenges that are faced while developing a RNAi strategy for fungal pathogens, such as off-target and epigenetic effects, with their possible solutions are also discussed.

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Section: Rnai For Resistance Against Plant Pathogenic Fungimentioning

confidence: 99%

Section: Small Rna Production Technologiesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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RNA Interference Strategies for Future Management of Plant Pathogenic Fungi: Prospects and Challenges

Gebremichael

Haile

Negrini

et al. 2021

Plants

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“…Selecting fungicide sites of action, Nerva and colleagues constructed a single long dsRNA molecule that exerted protection against grey mold in vitro on grapevine detached leaves and grapes at post-harvest, applied through the high-pressure spray and petiole adsorption. Despite different levels of protection being recorded among the dsRNAs delivery methods, interestingly, all the techniques that facilitate the provision of intact dsRNA to the fungus were assumed as effective [ 128 ].…”

Section: Rnai: Host- or Spray-induced Gene Silencing Against Fungimentioning

confidence: 99%

Biotechnological Approaches: Gene Overexpression, Gene Silencing, and Genome Editing to Control Fungal and Oomycete Diseases in Grapevine

Capriotti

Baraldi

Mezzetti

et al. 2020

IJMS

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Downy mildew, powdery mildew, and grey mold are some of the phytopathological diseases causing economic losses in agricultural crops, including grapevine, worldwide. In the current scenario of increasing global warming, in which the massive use of agrochemicals should be limited, the management of fungal disease has become a challenge. The knowledge acquired on candidate resistant (R) genes having an active role in plant defense mechanisms has allowed numerous breeding programs to integrate these traits into selected cultivars, even though with some limits in the conservation of the proper qualitative characteristics of the original clones. Given their gene-specific mode of action, biotechnological techniques come to the aid of breeders, allowing them to generate simple and fast modifications in the host, without introducing other undesired genes. The availability of efficient gene transfer procedures in grapevine genotypes provide valid tools that support the application of new breeding techniques (NBTs). The expertise built up over the years has allowed the optimization of these techniques to overexpress genes that directly or indirectly limit fungal and oomycetes pathogens growth or silence plant susceptibility genes. Furthermore, the downregulation of pathogen genes which act as virulence effectors by exploiting the RNA interference mechanism, represents another biotechnological tool that increases plant defense. In this review, we summarize the most recent biotechnological strategies optimized and applied on Vitis species, aimed at reducing their susceptibility to the most harmful fungal and oomycetes diseases. The best strategy for combating pathogenic organisms is to exploit a holistic approach that fully integrates all these available tools.

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“…Unsurprisingly, plant researchers have lately resorted to induction of RNAi by exogenous application of RNA molecules having the potential to trigger RNAi (exogenous RNAi, exo-RNAi), as an effective and transgene-free alternative to GM crops [31][32][33][34][35]. Indeed, dsRNAs/siRNAs were applied in plants by methods such as spraying, petiole uptake, trunk injection and root absorption in order to modify plant gene expression [36][37][38][39] and to confer resistance against viruses [40][41][42][43][44], fungi [45][46][47][48][49] and insects [50][51][52][53][54]. In the near future, one may envisage that exo-RNAi could potentially replace conventional herbicides, fungicides and insecticides, and a great amount of effort is invested in this direction by most major crop industries [55].…”

mentioning

confidence: 99%

Epigenetic Modifications: An Unexplored Facet of Exogenous RNA Application in Plants

Dalakouras

Papadopoulou

2020

Plants

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Exogenous RNA interference (exo-RNAi) is a powerful transgene-free tool in modern crop improvement and protection platforms. In exo-RNAi approaches, double-stranded RNAs (dsRNAs) or short-interfering RNAs (siRNAs) are externally applied in plants in order to selectively trigger degradation of target mRNAs. Yet, the applied dsRNAs may also trigger unintended epigenetic alterations and result in epigenetically modified plants, an issue that has not been sufficiently addressed and which merits more careful consideration.

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Double-Stranded RNAs (dsRNAs) as a Sustainable Tool against Gray Mold (Botrytis cinerea) in Grapevine: Effectiveness of Different Application Methods in an Open-Air Environment

Cited by 69 publications

References 65 publications

RNA Interference Strategies for Future Management of Plant Pathogenic Fungi: Prospects and Challenges

RNA Interference Strategies for Future Management of Plant Pathogenic Fungi: Prospects and Challenges

Biotechnological Approaches: Gene Overexpression, Gene Silencing, and Genome Editing to Control Fungal and Oomycete Diseases in Grapevine

Epigenetic Modifications: An Unexplored Facet of Exogenous RNA Application in Plants

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