Carotenoids Occurring in Maize Affect the Redox Homeostasis of Fusarium graminearum and Its Production of Type B Trichothecene Mycotoxins: New Insights Supporting Their Role in Maize Resistance to Giberella Ear Rot

生物 真菌毒素 类胡萝卜素 赤眼蜂 镰刀菌 玉米黄质 微生物学 植物 叶黄素
作者
Jean-Marie Savignac,Vessela Atanasova‐Pénichon,Sylvain Chéreau,Christine Ducos,Nathalie Gallegos,Véronique Ortéga,Nadia Ponts,Florence Richard‐Forget
出处
期刊:Journal of Agricultural and Food Chemistry [American Chemical Society]
卷期号:71 (7): 3285-3296 被引量:13
标识
DOI:10.1021/acs.jafc.2c06877
摘要

Fusarium graminearum is the causal agent of Gibberella ear rot (GER) in maize, a devastating fungal disease resulting in yield reduction and contamination of grains with type B trichothecene (TCTB) mycotoxins. Reducing GER damage requires the implementation of an integrated management strategy in which the use of resistant maize genotypes is a key factor. The present study aimed at providing new phenotyping tools to improve breeding pipelines by investigating the yet understudied contribution of carotenoids to GER resistance. Here, we demonstrated for the first time the efficiency of carotenoid extracts from various maize genotypes to inhibit the production of TCTB by F. graminearum . We further suggested that zeaxanthin could be a key actor of this inhibition efficiency, notably via a negative transcriptional control of several biosynthetic genes of the TCTB pathway. Besides, we demonstrated that zeaxanthin treatments led to profound perturbations in the fungal redox homeostasis by affecting the expression of key genes encoding ROS detoxifying enzymes, several of them being involved in F. graminearum virulence during plant infection. Altogether, our data support the contribution of carotenoids to the mechanisms employed by maize to counteract F. graminearum infection and its production of TCTB.
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