The transcriptomic landscape of Botrytis cinerea infection on postharvest grapes sheds light on the biological function of the Bcnrps1 gene

IF 2.8 3区 农林科学 Q2 PLANT SCIENCES Physiological and Molecular Plant Pathology Pub Date : 2024-07-09 DOI:10.1016/j.pmpp.2024.102356
Ana Fernández-Morales , Manuel Alfaro , Idoia Jiménez , Jesús M. Cantoral , Antonio G. Pisabarro , María Carbú
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Abstract

Botrytis cinerea, a prevalent necrotrophic fungal pathogen, causes significant postharvest infections including fruits. This pathogen exploits senescent tissues, resulting in significant economic losses. During the Botrytis-plant interaction, a molecular cross-talk is established between the host and the pathogen, mediated by the interplay of the plant's defense pathways and the phytopathogenic fungus's virulence pathways, which are modulated by abiotic and biotic factors.

The Bcnrps1 genes is secondary metabolims gene that encodes a non-ribosomal peptide synthetase. This family enzyme is responsible for the synthesis of natural peptides with a wide range of biological activities. Although the function of the majority of these peptides remains elusive, they could evolve in plant-pathogen interaction during infection process. Deletion of the Bcnrps1 gene increases the virulence of the pathogen otherwise, a reduction in sensitivity to toxic compounds such as spermidine and the fungicide pyrimethanil is observed. A transcriptome analysis was performed in this study to comprehensively elucidate the behavior of this mutant and to assess the molecular dynamics both in Bcnrps1 mutant and wild-type strains during the infection process of harvested white grapes. The number of differentially expressed genes (DEGs) during infection differs significantly between the B. cinerea B05.10 strain and the ΔBcnrps1 strain. The results demonstrate that, during white grape infection, the mutant induces genes related to five main functional groups: detoxification, transcription factors, CAZymes, virulence factors, and secondary metabolism. These findings underscore the crucial role of the Bcnrps1 gene in mediating the fungal response to environmental stressors and plant-derived substances during plant-pathogen interactions, as supported by observed gene expression patterns.

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葡萄采后感染灰霉病的转录组图谱揭示了 Bcnrps1 基因的生物功能
葡萄灰霉病是一种流行的坏死性真菌病原体,会对水果等造成严重的采后感染。这种病原体利用衰老组织,造成重大经济损失。在灰霉病菌与植物的相互作用过程中,宿主和病原体之间建立了分子交叉对话,由植物的防御途径和植物病原真菌的毒力途径相互作用介导,这些途径受到非生物因素和生物因素的调节。Bcnrps1 基因是次级代谢基因,编码一种非核糖体肽合成酶。该家族酶负责合成具有广泛生物活性的天然肽。虽然这些肽的大部分功能仍不明确,但它们可能在感染过程中演变为植物与病原体之间的相互作用。Bcnrps1 基因缺失会增加病原体的毒力,否则会降低对亚精胺和杀菌剂嘧菌酯等有毒化合物的敏感性。本研究进行了转录组分析,以全面阐明该突变体的行为,并评估 Bcnrps1 突变体和野生型菌株在采收的白葡萄感染过程中的分子动态。在感染过程中,B. cinerea B05.10菌株和ΔBcnrps1菌株的差异表达基因(DEGs)数量存在显著差异。研究结果表明,在白葡萄感染过程中,突变体会诱导与五个主要功能组相关的基因:解毒、转录因子、CAZymes、毒力因子和次生代谢。这些发现强调了 Bcnrps1 基因在植物与病原体相互作用过程中,在介导真菌对环境胁迫和植物衍生物质的反应方面所起的关键作用,观察到的基因表达模式也证明了这一点。
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来源期刊
CiteScore
4.30
自引率
7.40%
发文量
130
审稿时长
38 days
期刊介绍: Physiological and Molecular Plant Pathology provides an International forum for original research papers, reviews, and commentaries on all aspects of the molecular biology, biochemistry, physiology, histology and cytology, genetics and evolution of plant-microbe interactions. Papers on all kinds of infective pathogen, including viruses, prokaryotes, fungi, and nematodes, as well as mutualistic organisms such as Rhizobium and mycorrhyzal fungi, are acceptable as long as they have a bearing on the interaction between pathogen and plant.
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