RNA interference-based strategies to control Botrytis cinerea infection in cultivated strawberry

Key message Gene silencing of BcDCL genes improves gray mold disease control in the cultivated strawberry. Gene silencing technology offers new opportunities to develop new formulations or new pathogen-resistant plants for reducing impacts of agricultural systems. Recent studies offered the proof of...

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Veröffentlicht in:	Plant cell reports 2024-08, Vol.43 (8), p.201-201, Article 201
Hauptverfasser:	Capriotti, Luca, Molesini, Barbara, Pandolfini, Tiziana, Jin, Hailing, Baraldi, Elena, Cecchin, Michela, Mezzetti, Bruno, Sabbadini, Silvia
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Sprache:	eng
Schlagworte:	Biomedical and Life Sciences Biotechnology Botrytis - pathogenicity Botrytis cinerea Cell Biology Chemical pest control Cultivars Cultivation Disease control Disease Resistance - genetics Double-stranded RNA Farm buildings Farming systems Fragaria Fragaria - genetics Fragaria - microbiology Fragaria ananassa Fruit crops Fruit cultivation Fruits fungal biomass Fungi Fungicides Gene expression Gene Expression Regulation, Plant Gene silencing Genes gray mold greenhouses Grey mold Life Sciences Mold Northern blotting Original Original Article Pathogens Pesticides Plant Biochemistry Plant diseases Plant Diseases - genetics Plant Diseases - microbiology Plant Diseases - prevention & control Plant Proteins - genetics Plant Proteins - metabolism Plant Sciences RNA RNA Interference RNA, Double-Stranded - genetics RNA-mediated interference Signs and symptoms siRNA Strawberries
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creator	Capriotti, Luca Molesini, Barbara Pandolfini, Tiziana Jin, Hailing Baraldi, Elena Cecchin, Michela Mezzetti, Bruno Sabbadini, Silvia
description	Key message Gene silencing of BcDCL genes improves gray mold disease control in the cultivated strawberry. Gene silencing technology offers new opportunities to develop new formulations or new pathogen-resistant plants for reducing impacts of agricultural systems. Recent studies offered the proof of concept that the symptoms of gray mold can be reduced by downregulating Dicer-like 1 ( DCL1 ) and 2 ( DCL2 ) genes of Botrytis cinerea . In this study, we demonstrate that both solutions based on dsRNA topical treatment and in planta expression targeting BcDCL1 and BcDCL2 genes can be used to control the strawberry gray mold, the most harmful disease for different fruit crops. 50, 70 and 100 ng μL −1 of naked BcDCL1/2 dsRNA, sprayed on plants of Fragaria x ananassa cultivar Romina in the greenhouse, displayed significant reduction of susceptibility, compared to the negative controls, but to a lesser extent than the chemical fungicide. Three independent lines of Romina cultivar were confirmed for their stable expression of the hairpin gene construct that targets the Bc-DCL1 and 2 sequences (hp-Bc-DCL1/2), and for the production of hp construct-derived siRNAs, by qRT-PCR and Northern blot analyses. In vitro and in vivo detached leaves, and fruits from the hp-Bc-DCL1/2 lines showed significantly enhanced tolerance to this fungal pathogen compared to the control. This decreased susceptibility was correlated to the reduced fungal biomass and the downregulation of the Bc-DCL1 and 2 genes in B. cinerea . These results confirm the potential of both RNAi-based products and plants for protecting the cultivated strawberry from B. cinerea infection, reducing the impact of chemical pesticides on the environment and the health of consumers.
doi_str_mv	10.1007/s00299-024-03288-7
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Gene silencing technology offers new opportunities to develop new formulations or new pathogen-resistant plants for reducing impacts of agricultural systems. Recent studies offered the proof of concept that the symptoms of gray mold can be reduced by downregulating Dicer-like 1 ( DCL1 ) and 2 ( DCL2 ) genes of Botrytis cinerea . In this study, we demonstrate that both solutions based on dsRNA topical treatment and in planta expression targeting BcDCL1 and BcDCL2 genes can be used to control the strawberry gray mold, the most harmful disease for different fruit crops. 50, 70 and 100 ng μL −1 of naked BcDCL1/2 dsRNA, sprayed on plants of Fragaria x ananassa cultivar Romina in the greenhouse, displayed significant reduction of susceptibility, compared to the negative controls, but to a lesser extent than the chemical fungicide. Three independent lines of Romina cultivar were confirmed for their stable expression of the hairpin gene construct that targets the Bc-DCL1 and 2 sequences (hp-Bc-DCL1/2), and for the production of hp construct-derived siRNAs, by qRT-PCR and Northern blot analyses. In vitro and in vivo detached leaves, and fruits from the hp-Bc-DCL1/2 lines showed significantly enhanced tolerance to this fungal pathogen compared to the control. This decreased susceptibility was correlated to the reduced fungal biomass and the downregulation of the Bc-DCL1 and 2 genes in B. cinerea . 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Gene silencing technology offers new opportunities to develop new formulations or new pathogen-resistant plants for reducing impacts of agricultural systems. Recent studies offered the proof of concept that the symptoms of gray mold can be reduced by downregulating Dicer-like 1 ( DCL1 ) and 2 ( DCL2 ) genes of Botrytis cinerea . In this study, we demonstrate that both solutions based on dsRNA topical treatment and in planta expression targeting BcDCL1 and BcDCL2 genes can be used to control the strawberry gray mold, the most harmful disease for different fruit crops. 50, 70 and 100 ng μL −1 of naked BcDCL1/2 dsRNA, sprayed on plants of Fragaria x ananassa cultivar Romina in the greenhouse, displayed significant reduction of susceptibility, compared to the negative controls, but to a lesser extent than the chemical fungicide. Three independent lines of Romina cultivar were confirmed for their stable expression of the hairpin gene construct that targets the Bc-DCL1 and 2 sequences (hp-Bc-DCL1/2), and for the production of hp construct-derived siRNAs, by qRT-PCR and Northern blot analyses. In vitro and in vivo detached leaves, and fruits from the hp-Bc-DCL1/2 lines showed significantly enhanced tolerance to this fungal pathogen compared to the control. This decreased susceptibility was correlated to the reduced fungal biomass and the downregulation of the Bc-DCL1 and 2 genes in B. cinerea . 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Gene silencing technology offers new opportunities to develop new formulations or new pathogen-resistant plants for reducing impacts of agricultural systems. Recent studies offered the proof of concept that the symptoms of gray mold can be reduced by downregulating Dicer-like 1 ( DCL1 ) and 2 ( DCL2 ) genes of Botrytis cinerea . In this study, we demonstrate that both solutions based on dsRNA topical treatment and in planta expression targeting BcDCL1 and BcDCL2 genes can be used to control the strawberry gray mold, the most harmful disease for different fruit crops. 50, 70 and 100 ng μL −1 of naked BcDCL1/2 dsRNA, sprayed on plants of Fragaria x ananassa cultivar Romina in the greenhouse, displayed significant reduction of susceptibility, compared to the negative controls, but to a lesser extent than the chemical fungicide. Three independent lines of Romina cultivar were confirmed for their stable expression of the hairpin gene construct that targets the Bc-DCL1 and 2 sequences (hp-Bc-DCL1/2), and for the production of hp construct-derived siRNAs, by qRT-PCR and Northern blot analyses. In vitro and in vivo detached leaves, and fruits from the hp-Bc-DCL1/2 lines showed significantly enhanced tolerance to this fungal pathogen compared to the control. This decreased susceptibility was correlated to the reduced fungal biomass and the downregulation of the Bc-DCL1 and 2 genes in B. cinerea . 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subjects	Biomedical and Life Sciences Biotechnology Botrytis - pathogenicity Botrytis cinerea Cell Biology Chemical pest control Cultivars Cultivation Disease control Disease Resistance - genetics Double-stranded RNA Farm buildings Farming systems Fragaria Fragaria - genetics Fragaria - microbiology Fragaria ananassa Fruit crops Fruit cultivation Fruits fungal biomass Fungi Fungicides Gene expression Gene Expression Regulation, Plant Gene silencing Genes gray mold greenhouses Grey mold Life Sciences Mold Northern blotting Original Original Article Pathogens Pesticides Plant Biochemistry Plant diseases Plant Diseases - genetics Plant Diseases - microbiology Plant Diseases - prevention & control Plant Proteins - genetics Plant Proteins - metabolism Plant Sciences RNA RNA Interference RNA, Double-Stranded - genetics RNA-mediated interference Signs and symptoms siRNA Strawberries
title	RNA interference-based strategies to control Botrytis cinerea infection in cultivated strawberry
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