Dipartimento di Agraria, Università degli Studi di Sassari, Sassari, I-07100, Italy.
Faculté des Sciences de Bizerte, Zarzouna TN-7000, Tunisia.
Mol Plant Pathol. 2018 Mar;19(3):677-688. doi: 10.1111/mpp.12551. Epub 2017 May 31.
Fusarium culmorum is a soil-borne fungal pathogen which causes foot and root rot and Fusarium head blight on small-grain cereals, in particular wheat and barley. It causes significant yield and quality losses and results in the contamination of kernels with type B trichothecene mycotoxins. Our knowledge of the pathogenicity factors of this fungus is still limited. A transposon tagging approach based on the mimp1/impala double-component system has allowed us to select a mutant altered in multiple metabolic and morphological processes, trichothecene production and virulence. The flanking regions of mimp1 were used to seek homologies in the F. culmorum genome, and revealed that mimp1 had reinserted within the last exon of a gene encoding a hypothetical protein of 318 amino acids which contains a ROGDI-like leucine zipper domain, supposedly playing a protein-protein interaction or regulatory role. By functional complementation and bioinformatic analysis, we characterized the gene as the yeast Rav2 homologue, confirming the high level of divergence in multicellular fungi. Deletion of FcRav2 or its orthologous gene in F. graminearum highlighted its ability to influence a number of functions, including virulence, trichothecene type B biosynthesis, resistance to azoles and resistance to osmotic and oxidative stress. Our results indicate that the FcRav2 protein (and possibly the RAVE complex as a whole) may become a suitable target for new antifungal drug development or the plant-mediated resistance response in filamentous fungi of agricultural interest.
尖孢镰刀菌是一种土壤传播的真菌病原体,可导致小粒谷类作物(特别是小麦和大麦)的脚腐病和根腐病以及镰刀菌头腐病。它会导致显著的产量和质量损失,并导致颗粒被 B 型单端孢霉烯族真菌毒素污染。我们对这种真菌的致病性因素的了解仍然有限。基于 mimp1/impala 双组分系统的转座子标签方法使我们能够选择一个在多个代谢和形态过程、单端孢霉烯族毒素产生和毒力中发生改变的突变体。mimp1 的侧翼区域用于在 F. culmorum 基因组中寻找同源性,并揭示 mimp1 已重新插入编码一个 318 个氨基酸的假定蛋白质的最后外显子内,该基因编码一个包含 ROGDI 样亮氨酸拉链结构域的假定蛋白质-蛋白质相互作用或调节作用。通过功能互补和生物信息学分析,我们将该基因鉴定为酵母 Rav2 同源物,证实了多细胞真菌中的高度分化。FcRav2 或其在 F. graminearum 中的同源基因的缺失突出了其影响许多功能的能力,包括毒力、B 型单端孢霉烯族毒素生物合成、唑类抗性和耐渗透压和氧化应激。我们的结果表明,FcRav2 蛋白(可能整个 RAVE 复合物)可能成为新型抗真菌药物开发或农业丝状真菌中植物介导的抗性反应的合适靶标。