OsNramp5 基因敲除突变体与 OsHAM3 基因表达株稻粒中镉浓度的比较

bioRxiv Pub Date : 2024-07-16 DOI:10.1101/2024.07.11.603016
Yuejing Gui, J. Teo, D. Tian, Raji Mohan, Zhongchao Yin
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引用次数: 0

摘要

镉(Cd)是一种剧毒元素,会导致癌症和严重的人体疾病。水稻谷粒中容易积累镉,这给大米消费者的健康带来了隐患。OsNramp5 是水稻中主要的镉和锰转运体,而 OsHMA3 则是一种定位于营养体的转运体,参与镉在液泡中的螯合。我们通过基因编辑方法在 T5105 遗传背景下产生了 OsNramp5 基因敲除突变体。我们测量了OsNramp5基因敲除突变体谷粒中的镉和锰浓度,并将其与之前研究中开发的OsHMA3高表达品系谷粒中的镉和锰浓度进行了比较。我们发现,在不影响水稻对锰的吸收和转运的情况下,OsHMA3过表达方法比OsNramp5基因敲除方法更有效地产生低镉水稻谷粒。
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Comparison of Cd concentration in rice grain between OsNramp5 knock-out mutants and OsHAM3-overexpressing line
Cadmium (Cd) is a highly toxic element that causes cancer and serious diseases in human beings. Rice is prone to accumulate Cd in its grain, which causes health concerns for rice consumers. OsNramp5 is a major Cd and Mn transporter in rice, whereas OsHMA3 is a tonoplast-localized transporter that is involved in Cd sequestration in vacuoles. We generated an OsNramp5 knock-out mutant in T5105 genetic background by gene editing approach. Cd and Mn concentrations in the grain of OsNramp5 knock-out mutants were measured and compared with those in the grain of an OsHMA3-overexpressing line developed in a previous study. We found that the OsHMA3 overexpression approach worked more efficiently than the OsNramp5 knock-out method in generating low-Cd rice grain without affecting Mn uptake and transport in rice.
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