Comparative transcriptomics reveals the key pathways and genes of cadmium accumulation in the high cadmium-accumulating rice (Oryza Sativa L.) line

IF 10.3 1区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Environment International Pub Date : 2024-11-01 DOI:10.1016/j.envint.2024.109113
Huan Yang , Haiying Yu , Shengwang Wang , Huagang Huang , Daihua Ye , Xizhou Zhang , Tao Liu , Yongdong Wang , Zicheng Zheng , Tingxuan Li
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Abstract

The high cadmium (Cd)-accumulating rice line Lu527-8 (H8) has already been proven to exhibit elevated Cd concentration and translocation over the normal rice line Lu527-4 (N4). H8 and N4 are sister lines that diverged from the same parents, while the molecular mechanisms underlying the genotypic differences in Cd enrichment between the two rice lines remains unclear. Here an in-depth exploration was performed via transcriptome analysis with 2919 and 2563 differentially expressed genes (DEGs) in H8 and N4 identified, respectively. Gene ontology (GO) enrichment revealed that Cd-stressed rice both exhibited enhanced defense and antioxidant responses, while N4 displayed unique categories related to cell wall biosynthesis. Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis identified 5 mutual pathways between H8 and N4. Many genes associated with cell wall biosynthesis were identified as the Cd-responsive DEGs. Enhanced phenylpropanoid biosynthesis and unique diterpenoid biosynthesis resulted in intensified lignin biosynthesis, which likely led to apoplastic barrier formation, subsequently blocked Cd inflow and reduced radial Cd transport in the root, thereby limited Cd translocation into aerial parts in N4. The key genes OsPAL6 and OsPAL8 that encode phenylalanine ammonia lyase (PAL), and gibberellin (GA) biosynthesis-related key genes including OsCPS2, OsCPS4, OsKSL4, OsKSL7 and some CYP superfamily members played vital roles in the process. Meanwhile, the greater upregulation of Cd transporters, such as OsIRT1/2, some OsABCs, OsYSLs, and OsZIPs in H8, accounted for the higher root absorption of Cd compared to N4. These findings unveil the molecular basis of the differential Cd concentration and translocation between the two rice lines, contributing valuable insights to the theory of Cd accumulation in rice.
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比较转录组学揭示高镉积累水稻(Oryza Sativa L.)品系镉积累的关键途径和基因
高镉(Cd)积累水稻品系 Lu527-8(H8)已被证实比正常水稻品系 Lu527-4(N4)表现出更高的镉浓度和易位。H8 和 N4 是由同一亲本分化而来的姊妹品系,但这两个品系之间镉富集基因型差异的分子机制仍不清楚。在此,我们通过转录组分析进行了深入探讨,在 H8 和 N4 中分别发现了 2919 个和 2563 个差异表达基因(DEGs)。基因本体论(GO)富集显示,镉胁迫水稻都表现出增强的防御和抗氧化反应,而 N4 则表现出与细胞壁合成有关的独特类别。京都基因和基因组百科全书(KEGG)分析确定了 H8 和 N4 之间的 5 条相互通路。许多与细胞壁生物合成相关的基因被鉴定为镉响应 DEGs。增强的苯丙酮生物合成和独特的二萜生物合成加强了木质素的生物合成,这可能导致了细胞外屏障的形成,随后阻断了镉的流入,减少了镉在根部的径向运输,从而限制了镉在 N4 中向气生部位的转移。在此过程中,编码苯丙氨酸氨裂解酶(PAL)的关键基因 OsPAL6 和 OsPAL8,以及赤霉素(GA)生物合成相关的关键基因 OsCPS2、OsCPS4、OsKSL4、OsKSL7 和一些 CYP 超家族成员发挥了重要作用。同时,与 N4 相比,OsIRT1/2、一些 OsABCs、OsYSLs 和 OsZIPs 等镉转运体在 H8 中的上调幅度更大,这也是根系吸收镉量更高的原因。这些发现揭示了两个水稻品系之间镉浓度和转运差异的分子基础,为水稻镉积累理论提供了有价值的见解。
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来源期刊
Environment International
Environment International 环境科学-环境科学
CiteScore
21.90
自引率
3.40%
发文量
734
审稿时长
2.8 months
期刊介绍: Environmental Health publishes manuscripts focusing on critical aspects of environmental and occupational medicine, including studies in toxicology and epidemiology, to illuminate the human health implications of exposure to environmental hazards. The journal adopts an open-access model and practices open peer review. It caters to scientists and practitioners across all environmental science domains, directly or indirectly impacting human health and well-being. With a commitment to enhancing the prevention of environmentally-related health risks, Environmental Health serves as a public health journal for the community and scientists engaged in matters of public health significance concerning the environment.
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