Okechukwu Samson Ezeh, Natsuki Hayami, Kana Mitai, Wasei Kodama, Satoshi Iuchi, Yoshiharu Y Yamamoto
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引用次数: 0
摘要
拟南芥早期光抑制蛋白 2(ELIP2)是一种叶绿素和类胡萝卜素结合蛋白,参与胁迫条件下的光保护。由于强光、寒冷或紫外线-B 胁迫会诱导其表达,因此对其诱导机制进行了研究。众所周知,启动子中由元件 B 和元件 A 组成的功能单元是这些胁迫因素完全激活所必需和足够的。在这项研究中,除了对每个单一元素进行密集重复构建外,还通过引入每个元素的弱突变作为合成启动子,对该单元中每个元素的作用进行了分析。结果表明,像冷胁迫这样的胁迫会在植物细胞中产生两个平行信号,它们在启动子区域合并以激活 ELIP2 的表达,这就构成了一个 "AND "门,有可能通过环境触发实现高特异性的强响应。
Requirement of two simultaneous environmental signals for activation of Arabidopsis ELIP2 promoter in response to high light, cold, and UV-B stresses.
Arabidopsis EARLY LIGH-INDUCIBLE PROTEIN 2 (ELIP2) is a chlorophyll- and carotenoid-binding protein and is involved in photoprotection under stress conditions. Because its expression is induced through high light, cold, or UV-B stressors, its mechanism of induction has been studied. It is known that a functional unit found in the promoter, which is composed of Element B and Element A, is required and sufficient for full activation by these stressors. In this study, the role of each element in the unit was analyzed by introducing weak mutations in each element as synthetic promoters in addition to intensive repeat constructs of each single element. The results suggest that a stressor like cold stress generates two parallel signals in plant cells, and they merge at the promoter region for the activation of ELIP2 expression, which constitutes an "AND" gate and has a potential to realize strong response with high specificity by an environmental trigger.
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