Enhanced expression of the rice gene OsCTF using epigenetic regulation for low cadmium planting in Rice

Science and Technology of Engineering, Chemistry and Environmental Protection Pub Date : 2024-02-19 DOI:10.61173/2htavz07

Jiahui He

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Abstract

Rice is a major food crop and one of the most cadmium absorbing and bulk cereal crops. OsCTF, a gene involved in the efflux of heavy metal Cd in rice, which is closely related to the amount of Cd accumulation in rice. In this study, CRISPR-dCas9 technology was used to regulation of OsCTF 3 ‘- UTR demethylation in rice to improve the amount of OsCTF gene expression, which was detected by direct detection, using a Chop-PCR method to detect the methylation level in rice, and real-time quantitative PCR to detect the level of OsCTF gene expression; at the same time,cadmium stress was detected, DNA methylation was analyzed by sulfite sequencing and McrBC-PCR, and OsCTF gene expression was detected by differential expression gene analysis. OsCTF expression and cadmium accumulation in rice after demethylation of the OsCTF 3 ‘- UTR were measured by both direct and cadmium stress assays. Then, OsCTF 3 ‘-UTR demethylation level, OsCTF gene expression and cadmium accumulation in offspring were measured by self-cross method of transgenic rice. Finally, a new rice line with low cadmium accumulation was formed.

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利用表观遗传调控增强水稻基因 OsCTF 的表达，促进水稻低镉种植

水稻是一种主要的粮食作物，也是镉吸收量最大、体积最大的谷类作物之一。OsCTF是一个参与水稻重金属镉外排的基因，它与水稻的镉积累量密切相关。本研究利用CRISPR-dCas9技术调控水稻中OsCTF 3 '- UTR的去甲基化，以提高OsCTF基因的表达量，通过直接检测法、Chop-PCR法检测水稻中的甲基化水平，以及实时定量PCR法检测OsCTF基因的表达水平；同时，检测镉胁迫，通过亚硫酸盐测序和 McrBC-PCR 分析 DNA 甲基化，并通过差异表达基因分析检测 OsCTF 基因的表达。通过直接检测和镉胁迫检测，测定了OsCTF 3 '- UTR去甲基化后水稻中OsCTF的表达和镉积累。然后，用自交法测定了转基因水稻的 OsCTF 3 '-UTR 去甲基化水平、OsCTF 基因表达和后代的镉积累。最后，形成了一个低镉积累的水稻新品系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Science and Technology of Engineering, Chemistry and Environmental Protection

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