Mitigating cadmium accumulation in rice without compromising growth via modifying the regulatory region of OsNRAMP5  

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作  者:Zhenling Luo Chao-Lei Liu Xiaofei Yang Jian-Kang Zhu Chao-Feng Huang 

机构地区:[1]National Key Laboratory of Plant Molecular Genetics,Shanghai Center for Plant Stress Biology,Center for Excellence in Molecular Plant Sciences,Chinese Academy of Sciences,Shanghai 200032,China [2]University of the Chinese Academy of Sciences,Beijing 100049,China [3]State Key Laboratory of Rice Biology and Breeding,China National Rice Research Institute,Hangzhou 310006,China [4]Institute of Advanced Biotechnology and School of Life Sciences,Southern University of Science and Technology,Shenzhen 518055,China

出  处:《Stress Biology》2023年第1期369-376,共8页逆境生物学(英文)

基  金:supported by Shanghai Center for Plant Stress Biology,CAS Center for Excellence in Molecular Plant Sciences,Chinese Academy of Sciences;by National Key Laboratory of Plant Molecular Genetics.

摘  要:Cadmium(Cd)intake poses a significant health risk to humans,and the contamination of rice grains with Cd is a major concern in regions where rice is a staple food.Although the knockout of OsNRAMP5,which encodes a key transporter responsible for Cd and manganese(Mn)uptake,can significantly reduce Cd accumulation in rice grains,recent studies have revealed that this knockout adversely affects plant growth,grain yield,and increases vulnerability to abiotic and biotic stresses due to reduced Mn accumulation.In this study,we employed CRISPR/Cas9 technology to modify the regulatory region of OsNRAMP5 with the aim of reducing Cd accumulation in rice grains.Our findings demonstrate that mutations in the regulatory region of OsNRAMP5 do not impact its expression pattern but result in a reduction in translation.The decreased translation of OsNRAMP5 effectively decreases grain Cd accumulation while leaving Mn accumulation and important agronomic traits,including yield,unaffected.Thus,our study presents a practical and viable strategy for reducing Cd accumulation in rice grains without compromising Mn accumulation or overall rice production.

关 键 词:Cadmium accumulation CRISPR/Cas9 OsNRAMP5 translation Oryza sativa(rice) Regulatory region 

分 类 号:S511[农业科学—作物学]

 

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