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  • Title: Exogenous dsRNA trigger RNAi in Venturia inaequalis resulting in down regulation of target genes and growth reduction.
    Author: Bhagta S, Bhardwaj V, Kant A.
    Journal: Mol Biol Rep; 2023 Oct; 50(10):8421-8429. PubMed ID: 37620739.
    Abstract:
    BACKGROUND: Venturia inaequalis is an apple scab causing fungal pathogen. It is a highly contagious and destructive pathogen which rapidly spreads infection in the surrounding orchards if not managed. The management and control of disease require multiple fungicides to be sprayed at different development stages of the apple. Persistent applications of fungicides also raises environmental concerns. Here, we demonstrate the potential of using spray induced gene silencing (SIGS) by developing target specific gene constructs for the synthesis of corresponding double-stranded RNA (dsRNA). METHODS AND RESULTS: The exogenous application of dsRNAs was found to reduce mycelial growth and spore formation of V. inaequalis on culture plates. Four genes of V. inaequalis viz. CIN1, CE5, VICE12 and VICE16 which get upregulated during infection, were selected as targets for the development of gene construct expressing the corresponding dsRNA. The effect of exogenously supplied in vitro synthesized dsRNA on V. inaequalis was assessed in culture bioassay experiments with respect to growth, and spore formation. The expression level of the target genes in treated and control fungus was evaluated using quantitative PCR. Fungus treated with VICE12 targeted dsRNA showed maximum reduction in colony size (~ 55%), conidia formation (~ 93%) and expression level of the corresponding gene (2.2 fold), which was followed by CIN1-dsRNA. VICE16-dsRNA treatment was least effective with 32% reduction in growth, the non-significant effect of conidial spore formation and 1.13 fold down regulation of corresponding target gene expression level. CONCLUSION: The result of this investigation validates the hypothesis that RNAi is evoked in V. inaequalis by exogenously supplied dsRNA and spray induced gene silencing (SIGS) based solutions may reduce burden of fungicide usage on apple crop against apple scab disease in future.
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