类似 COR2 基因的启动子是香蕉中的胁迫诱导调控区。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Sanjana Negi, Nikita Mahashabde, Subham Bhakta, Sudhir Singh, Himanshu Tak
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引用次数: 0

摘要

启动子是驱动作物改良生物技术应用中感兴趣的转基因表达的关键元件,因此对不同调控区域进行鉴定至关重要。在此,我们鉴定了香蕉中 COR2-like (codeinone reductase-like)的启动子,并描述了其组织特异性和胁迫诱导性。香蕉的 MusaCOR2-like 与来自不同植物物种的 COR2 和 CHR(查尔酮还原酶)序列密切相关,并包含具有醛酮还原酶活性的典型蛋白质催化四分体等标志性序列。MusaCOR2-like 的转录水平在干旱、盐度和暴露于脱落酸、甲基茉莉酮酸和水杨酸等信号分子时被强烈诱导。胁迫条件下 MusaCOR2-like 的诱导与从 Musa 栽培品种 Rasthali 分离出来的 PMusaCOR2-like 序列中与胁迫反应相关的多个顺式元件的存在密切相关。在对照条件下,携带 PMusaCOR2-like-GUS 的转基因烟草品系在叶片和茎的维管组织中显示出可见的 GUS 表达,而在根中则检测不到。在 3 至 12 小时的窗口期内,干旱、盐度和寒冷会强烈诱导转基因烟草嫩枝中 PMusaCOR2-like-GUS 的 GUS 表达。水杨酸、茉莉酸甲酯、脱落酸和乙硫磷也能在不同时期激活转基因芽中的 GUS,其中水杨酸和脱落酸对 PMusaCOR2-like 的刺激作用最强。利用 PMusaCOR2-like-GUS 融合和表达谱分析,本研究揭示了 COR2-like 这一植物次生代谢产物途径中研究最少的基因的复杂调控。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Promoter of COR2-like gene is a stress inducible regulatory region in banana.

Promoter of COR2-like gene is a stress inducible regulatory region in banana.

A promoter is a crucial component in driving the expression of a transgene of interest for biotechnological applications in crop improvement and thus characterization of varied regulatory regions is essential. Here, we identified the promoter of COR2-like (codeinone reductase-like) from banana and characterized its tissue specific and stress inducible nature. MusaCOR2-like of banana is closely related to COR2 and CHR (chalcone reductase) sequences from different plant species and contains signature sequences including a catalytic tetrad typical of proteins with aldo-keto reductase activity. Transcript level of MusaCOR2-like was strongly induced in response to drought, salinity and exposure of signaling molecules such as abscisic acid, methyl-jasmonate and salicylic acid. Induction of MusaCOR2-like under stress strongly correlated with the presence of multiple cis-elements associated with stress responses in the PMusaCOR2-like sequence isolated from Musa cultivar Rasthali. Transgenic tobacco lines harbouring PMusaCOR2-like-GUS displayed visible GUS expression in vascular tissue of leaves and stem while its expression was undetectable in roots under control conditions. Exposure to drought, salinity and cold strongly induced GUS expression from PMusaCOR2-like-GUS in transgenic tobacco shoots in a window period of 3H to 12H. Applications of salicylic acid, methyl-jasmonate, abscisic acid and ethephon also activate GUS in transgenic shoots at different period, with salicylic acid and abscisic acid being the stronger stimulants of PMusaCOR2-like. Using PMusaCOR2-like-GUS fusion and expression profiling, the current study sheds insights into a complex regulation of COR2-like, one of the least studied genes of secondary metabolite pathway in plants.

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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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