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Metal-Binding Protein TaGlo1 Improves Fungal Resistance to Arsenite (As) and Methylarsenite (MAs) in Paddy Soil

Environ Sci Technol. 2024-04; 
Lijuan Li, Jian Tian, Ke Huang, Ximei Xue, Jian Chen, Feifei Guan, Tuo Zhang, Yifei Sun, Chao He, Xibai Zeng, Shiming Su
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Mutant Libraries … Taglo1 mutations were generated by GenScript Biotech Corporation (Nanjing, China). Each of the indicated cysteine residues in TaGlo1 was substituted with serine. (49) Mutations … Get A Quote

摘要

Trivalent arsenicals such as arsenite (As) and methylarsenite (MAs) are thought to be ubiquitous in flooded paddy soils and have higher toxicity than pentavalent forms. Fungi are widely prevalent in the rice rhizosphere, and the latter is considered a hotspot for As uptake. However, few studies have focused on alleviating As toxicity in paddy soils using fungi. In this study, we investigated the mechanism by which the protein TaGlo1, derived from the As-resistant fungal strain SM-12F1, mitigates As and MAs toxicity in paddy soils. gene expression in BL21 conferred strong resistance to As and MAs, while purified TaGlo1 showed a high affinity for As and MAs. Three cysteine residues (Cys13, Cys18, and Cys71) pl... More

关键词

cysteine residues, detoxification, isothermal titration calorimetry, rice rhizosphere, site-directed mutation
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