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Arsenic Transport in Rice and Biological Solutions to Reduce Arsenic Risk from Rice

机译：水稻中的砷运输和降低水稻中砷风险的生物解决方案

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Rice (Oryza sativa L.) feeds ∼3 billion people. Due to the wide occurrence of arsenic (As) pollution in paddy soils and its efficient plant uptake, As in rice grains presents health risks. Genetic manipulation may offer an effective approach to reduce As accumulation in rice grains. The genetics of As uptake and metabolism have been elucidated and target genes have been identified for genetic engineering to reduce As accumulation in grains. Key processes controlling As in grains include As uptake, arsenite (AsIII) efflux, arsenate (AsV) reduction and AsIII sequestration, and As methylation and volatilization. Recent advances, including characterization of AsV uptake transporter OsPT8, AsV reductase OsHAC1;1 and OsHAC1;2, rice glutaredoxins, and rice ABC transporter OsABCC1, make many possibilities to develop low-arsenic rice.

机译：稻米（Oryza sativa L.）养活了约30亿人口。由于水稻土中砷（As）污染的广泛发生及其对植物的有效吸收，稻谷中的砷具有健康风险。基因操纵可能为减少水稻籽粒中砷的积累提供一种有效的方法。已经阐明了砷吸收和代谢的遗传学，并已确定了用于基因工程的靶基因，以减少谷物中砷的积累。谷物中控制砷的关键过程包括砷的吸收，砷的外排，砷的还原和砷的固存以及砷的甲基化和挥发。包括AsV摄取转运蛋白OsPT8，AsV还原酶OsHAC1; 1和OsHAC1; 2，水稻戊二醛毒素和水稻ABC转运蛋白OsABCC1的表征在内的最新进展为开发低砷水稻提供了许多可能性。

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期刊名称 other
作者
Yanshan Chen; Yong-He Han; Yue Cao; Yong-Guan Zhu; Bala Rathinasabapathi; Lena Q. Ma;
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年(卷),期 -1(8),-1
年度 -1
页码 268
总页数 11
原文格式 PDF
正文语种
中图分类
关键词
Oryza sativa arsenic uptake arsenate reduction sequestration arsenite efflux methylation;

机译：水稻;砷吸收;砷酸盐还原;螯合;亚砷酸盐外排;甲基化;

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专利

1. 铁改性生物炭对土壤-水稻系统中砷有效性和迁移的影响 [J] . 钱子妍, 薛生国, 崔梦倩, 中南大学学报（英文版） . 2021,第006期
2. Reduced arsenic accumulation in rice (Oryza sativa L.) shoot involves sulfur mediated improved thiol metabolism, antioxidant system and altered arsenic transporters [J] . Dixit Garima, Singh Amit Pal, Kumar Amit, Plant Physiology and Biochemistry . 2016,第Null期

机译：水稻（Oryza sativa L.）芽中砷的积累减少涉及硫介导的硫醇代谢改善，抗氧化系统和砷转运蛋白的改变
3. Variety-specific arsenic accumulation in 44 different rice cultivars (O. sativa L.) and human health risks due to co-exposure of arsenic-contaminated rice and drinking water [J] . Samal Alok C., Bhattacharya Piyal, Biswas Priyanka, Journal of Hazardous Materials . 2021,第Apra5期

机译：由于砷污染的米饭和饮用水的共同暴露，44种不同水稻品种（O. Sativa L.）和人类健康风险的品种特异性砷累积
4. Arsenic accumulation in rice: Consequences of rice genotypes and management practices to reduce human health risk [J] . Islama Shofiqul, Rahman Mohammad Mahmudur, Islam M. R., Environment international . 2016,第nova期

机译：水稻中的砷积累：水稻基因型的后果和减少人类健康风险的管理方法
5. Managing arsenic in paddy soils to reduce human exposure to arsenic in rice [C] . Y.-G. Zhu International Congress: Arsenic in the Environment . 2010

机译：在水稻土中管理砷，以减少水稻中的砷暴露
6. Impact of inorganic and plant-based silicon amendments on arsenic accumulation, yield, and greenhouse gas emissions in rice (Oryza sativa L.) under elevated soil arsenic conditions. [D] . Teasley, William Alfred, IV. 2016

机译：在土壤砷增加的条件下，无机和植物基硅改良剂对水稻（Oryza sativa L.）中砷的积累，产量和温室气体排放的影响。
7. Azadirachta indica and Ocimum sanctum leaf extracts alleviate arsenic toxicity by reducing arsenic uptake and improving antioxidant system in rice seedlings [O] . Arti Gautam, Akhilesh Kumar Pandey, Rama Shanker Dubey 2020

机译：Azadirachta籼稻和最大圣明叶提取物通过减少砷吸收和改善水稻幼苗的抗氧化系统来缓解砷毒性
8. Arsenic Transport in Rice and Biological Solutions to Reduce Arsenic Risk from Rice [O] . Yanshan Chen, Yong-He Han, Yue Cao, 2017

机译：水稻中砷的运输和生物溶液降低水稻砷的风险

Arsenic Transport in Rice and Biological Solutions to Reduce Arsenic Risk from Rice

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