水稻RPR1上游片段对苯丙唑的响应性分析。

植物生理与分子生物学学报 Pub Date : 2007-12-01
Xiang-Hui Zhao, Jin-Xiao Yang, Jiong Gao, Qian Zhou, Ben-Ke Kuai
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引用次数: 0

摘要

RPR1 (rice probenazole-responsive)是一种水稻基因,其表达对可能作为植物防御激活剂的合成化合物probenazole (PBZ)有应答作用。已有研究表明,RPR1基因可能参与抗病反应。本研究从水稻RPR1启动子区制备了ATG翻译起始位点上游2,416 bp、1,574 bp、819 bp、568 bp和208 bp的扩增片段,并与β -葡萄糖醛酸酶(GUS)基因编码区连接。GUS基因在水稻愈伤组织中的瞬时表达分析表明,568 bp的片段足以对苯丙唑产生反应。GUS基因在拟南芥中的稳定表达分析表明,2,416 bp和1,574 bp片段仅在茎尖分生组织和叶柄中驱动GUS基因的表达。这些pbz反应片段的鉴定为构建pbz诱导基因调控系统提供了基础,可用于基因表达的实验分析和野外应用。
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Analysis of probenazole-responsiveness of rice RPR1 upstream fragments.

RPR1 (rice probenazole-responsive) is a rice gene, the expression of which is responsive to probenazole (PBZ), a synthetic compound that may act as a plant defense activator. It has been shown that RPR1 gene may be involved in disease resistance responses. In this study, a series of amplified fragments from the rice RPR1 promoter region, including 2,416 bp, 1,574 bp, 819 bp, 568 bp and 208 bp fragments upstream to the ATG translation start site, were prepared and linked to the coding region of beta-glucuronidase (GUS) gene. Analysis of GUS gene transient expression in rice calli demonstrated that the 568 bp fragment was sufficient for probenazole responsiveness. Analysis of GUS gene stable expression in Arabidopsis thaliana indicated that the 2,416 bp and 1,574 bp fragments drove GUS expression only in shoot apical meristem and petiole. Identification of these PBZ-responsive fragments provides a basis on which PBZ-inducible gene regulatory systems can be constructed for experimental analysis of gene expression and for field application.

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