Benzimidazole Derivatives Suppress Fusarium Wilt Disease via Interaction with ERG6 of Fusarium equiseti and Activation of the Antioxidant Defense System of Pepper Plants

Sweet pepper ( L.), also known as bell pepper, is one of the most widely grown vegetable crops worldwide. It is attacked by numerous phytopathogenic fungi, such as , the causal agent of Fusarium wilt disease. In the current study, we proposed two benzimidazole derivatives, including 2-(2-hydroxyphen...

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Published in:Journal of fungi (Basel) 2023-02, Vol.9 (2), p.244
Main Authors: El-Nagar, Asmaa, Elzaawely, Abdelnaser A, El-Zahaby, Hassan M, Xuan, Tran Dang, Khanh, Tran Dang, Gaber, Mohamed, El-Wakeil, Nadia, El-Sayed, Yusif, Nehela, Yasser
Format: Article
Language:English
Subjects:
Aluminum
Antifungal activity
antioxidant
Antioxidants
Ascorbic acid
benzimidazole
Benzimidazoles
Capsicum annuum
EGR6
Enzymatic activity
Experiments
Flavonoids
Fungi
Fungicides
Fusarium equiseti
Genomes
Glutathione reductase
Guaiacol
Homology
L-Ascorbate peroxidase
Ligands
Loam soils
metal complex
Methyltransferase
Microorganisms
Pesticides
Physiology
Phytopathogenic fungi
Plant diseases
Polyphenol oxidase
Sterol 24-C-methyltransferase
Wilt
wilt disease
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Summary:Sweet pepper ( L.), also known as bell pepper, is one of the most widely grown vegetable crops worldwide. It is attacked by numerous phytopathogenic fungi, such as , the causal agent of Fusarium wilt disease. In the current study, we proposed two benzimidazole derivatives, including 2-(2-hydroxyphenyl)-1-H benzimidazole (HPBI) and its aluminum complex (Al-HPBI complex), as potential control alternatives to . Our findings showed that both compounds demonstrated dose-dependent antifungal activity against in vitro and significantly suppressed disease development in pepper plants under greenhouse conditions. According to in silico analysis, the genome possesses a predicted Sterol 24-C-methyltransferase ( ) protein that shares a high degree of homology with from ( ). It is worth mentioning that molecular docking analysis confirmed that both compounds can interact with from as well as from Moreover, root application of HPBI and its aluminum complex significantly enhanced the enzymatic activities of guaiacol-dependent peroxidases (POX), polyphenol oxidase (PPO), and upregulated four antioxidant-related enzymes, including superoxide dismutase [Cu-Zn] ( ), L-ascorbate peroxidase 1, cytosolic ( ), glutathione reductase, chloroplastic ( ), and monodehydroascorbate reductase ( ). Additionally, both benzimidazole derivatives induced the accumulation of total soluble phenolics and total soluble flavonoids. Collectively, these findings suggest that the application of HPBI and Al-HPBI complex induce both enzymatic and nonenzymatic antioxidant defense machinery.
ISSN:2309-608X
2309-608X
DOI:10.3390/jof9020244