烟草根系偏好油棕金属硫蛋白启动子的功能分析

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Subhi Siti Masura, Noor Azmi Shaharuddin, Mat Yunus Abdul Masani, Kuang-Lim Chan, Eng-Ti Leslie Low, Pek-Lan Chan, Abdul Rahman Siti Rahmah, Nadzirah Amiruddin, Mohd Puad Abdullah, Azzreena Mohamad Azzeme, Ghulam Kadir Ahmad Parveez, Omar Abd Rasid
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引用次数: 0

摘要

根特异性或优先启动子对具有有益根系性状的植物转基因至关重要。我们对油棕金属硫蛋白基因(EgMT)的启动子进行了表征,并进行了一系列 5' 缺失分析,以确定转基因在根部表达所必需的区域。利用 T1 代对烟草转基因品系进行的稳定功能表征显示,一个名为 RSP-2D (1107 bp)的缺失构建体在根系发育的各个阶段都有很强的 GUS 表达,尤其是在成熟根系中。其他构建子 RSP-2A(2481 bp)和 RSP-2C(1639 bp)在根中的 GUS 表达强度低于 RSP-2D。在荚果和未成熟种子中也能检测到启动子活性,但水平低于 CaMV35S。该启动子活性也可能是由损伤诱导的,因为在携带 RSP-2C 或 RSP-2D 构建体的 T1 样品的切花和切叶部位观察到了完整的 GUS 染色。启动子序列中包含的顺式作用元件可能起到负调控作用,是根特异性的原因。研究结果进一步表明,5' UTR 和 ATATT 序列对强大的启动子活性至关重要。这项研究强调了 RSP-2D 启动子作为通过基因工程改造根系性状的工具的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Functional analysis of root-preferential oil palm metallothionein promoter in tobacco.

Functional analysis of root-preferential oil palm metallothionein promoter in tobacco.

Root-specific or preferential promoters are essential to genetically modify plants with beneficial root traits. We have characterised the promoter from an oil palm metallothionein gene (EgMT) and performed a serial 5' deletion analysis to identify the region(s) essential for transgenes expression in roots. Stable functional characterisation of tobacco transgenic lines using the T1 generation showed that a deletion construct, designated as RSP-2D (1107 bp), directed strong GUS expression at all stages of root development, particularly in mature roots. Other constructs, RSP-2A (2481 bp) and RSP-2C (1639 bp), drove GUS expression in roots with an intensity lower than RSP-2D. The promoter activity was also detectable in seed pods and immature seeds, albeit at lower levels than CaMV35S. The promoter activity may also be induced by wounding as intact GUS staining was observed at the flower- and leaf-cutting sites of T1 samples carrying either RSP-2C or RSP-2D constructs. The promoter sequence contains cis-acting elements that may act as negative regulators and be responsible for root specificity. The results further indicated that the 5' UTR and ATATT sequences are essential for strong promoter activity. This study highlights the potential of RSP-2D promoter as a tool for modifying root traits through genetic engineering.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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