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离子组学分析和砷形态分析为砷酸盐和亚砷酸盐氧化菌通过磷酸盐解毒来降低水稻砷含量提供了证据。

Ionome profiling and arsenic speciation provide evidence of arsenite detoxification in rice by phosphate and arsenite-oxidizing bacteria.

机构信息

College of Chemistry and Chemical Engineering, Central South University, Changsha 410083, China.

College of Chemistry and Chemical Engineering, Central South University, Changsha 410083, China; Key Laboratory of Hunan Province for Water Environment and Agriculture Product Safety, Central South University, Changsha 410083, China.

出版信息

J Environ Sci (China). 2023 Jun;128:129-138. doi: 10.1016/j.jes.2022.08.017. Epub 2022 Aug 23.

DOI:10.1016/j.jes.2022.08.017
PMID:36801029
Abstract

Arsenite (As(III)) as the most toxic and mobile form is the dominant arsenic (As) species in flooded paddy fields, resulting in higher accumulation of As in paddy rice than other terrestrial crops. Mitigation of As toxicity to rice plant is an important way to safeguard food production and safety. In the current study, As(III)-oxidizing bacteria Pseudomonas sp. strain SMS11 was inoculated with rice plants to accelerate conversion of As(III) into lower toxic arsenate (As(V)). Meanwhile, additional phosphate was supplemented to restrict As(V) uptake by the rice plants. Growth of rice plant was significantly inhibited under As(III) stress. The inhibition was alleviated by the introduction of additional P and SMS11. Arsenic speciation showed that additional P restricted As accumulation in the rice roots via competing common uptake pathways, while inoculation with SMS11 limited As translocation from root to shoot. Ionomic profiling revealed specific characteristics of the rice tissue samples from different treatment groups. Compared to the roots, ionomes of the rice shoots were more sensitive to environmental perturbations. Both extraneous P and As(III)-oxidizing bacteria SMS11 could alleviate As(III) stress to the rice plants through promoting growth and regulating ionome homeostasis.

摘要

砷酸盐(As(V))是最具毒性和流动性的砷(As)形态,在淹水稻田中占主导地位,导致水稻对砷的积累高于其他陆生作物。减轻砷对水稻的毒性是保障粮食生产和安全的重要途径。在本研究中,接种了砷(III)氧化细菌 Pseudomonas sp. 菌株 SMS11 以加速将 As(III)转化为毒性较低的砷酸盐(As(V))。同时,补充了额外的磷酸盐以限制水稻对 As(V)的吸收。在 As(III)胁迫下,水稻的生长受到显著抑制。引入额外的 P 和 SMS11 缓解了这种抑制。砷形态分析表明,额外的 P 通过竞争共同的吸收途径限制了根中砷的积累,而 SMS11 的接种限制了砷从根部向地上部的转运。离子组学分析揭示了来自不同处理组的水稻组织样本的特定特征。与根部相比,水稻地上部的离子组对环境扰动更为敏感。外源 P 和砷(III)氧化细菌 SMS11 均可通过促进生长和调节离子组平衡来缓解水稻对 As(III)的胁迫。

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