过表达转录因子 TERF2/LeERF2 可增强烟草和番茄对冷冻的耐受性，其受乙烯生物合成调控。

Enhanced tolerance to freezing in tobacco and tomato overexpressing transcription factor TERF2/LeERF2 is modulated by ethylene biosynthesis.

机构信息

Biotechnology Research Institute, Chinese Academy of Agricultural Sciences, Beijing, China.

出版信息

Plant Mol Biol. 2010 Jun;73(3):241-9. doi: 10.1007/s11103-010-9609-4. Epub 2010 Feb 5.

PMID:20135196

Abstract

Increasing numbers of investigations indicate that ethylene response factor (ERF) proteins play important roles in plant stress responses via interacting with GCC box and/dehydration-responsive element/C-repeat to modulate expression of downstream genes, but the detailed regulatory mechanism is not well elucidated. Revealing the modulation pathway of ERF proteins in response to stresses is vital. Previously, we showed that tomato ERF protein TERF2/LeERF2 is ethylene inducible, and ethylene production is suppressed in antisense TERF2/LeERF2 tomatoes, suggesting that TERF2/LeERF2 functions as a positive regulator in ethylene biosynthesis. In this paper, we report that regulation of TERF2/LeERF2 in ethylene biosynthesis is associated with enhanced freezing tolerance of tobacco and tomato. Analysis of gene expression showed that cold slowly induces expression of TERF2/LeERF2 in tomato, implying that TERF2/LeERF2 may be involved in cold response through ethylene modulation. To test the hypothesis, we first observed that overexpressing TERF2/LeERF2 tobaccos not only enhances freezing tolerance via activating expression of cold-related genes, but also significantly reduces electrolyte leakage. In addition, with treatment of ethylene biosynthesis inhibitor or ethylene receptor antagonist, we then showed that blockage of ethylene biosynthesis or the ethylene signaling pathway decreases freezing tolerance of overexpressing TERF2/LeERF2 tobaccos. Moreover, the results from tomatoes showed that overexpressing TERF2/LeERF2 tomatoes enhances while antisense TERF2/LeERF2 transgenic lines decreases freezing tolerance, and application of ethylene precursor 1-aminocyclopropane-1-carboxylic acid restored freezing tolerance of antisense lines. Therefore our results establish that TERF2/LeERF2 enhances freezing tolerance of plants through ethylene biosynthesis and the ethylene signaling pathway.

摘要

越来越多的研究表明，乙烯应答因子（ERF）蛋白通过与 GCC 盒和/或脱水响应元件/C-重复序列相互作用来调节下游基因的表达，从而在植物应激反应中发挥重要作用，但详细的调控机制尚不清楚。揭示 ERF 蛋白对应激的调节途径至关重要。先前，我们表明番茄 ERF 蛋白 TERF2/LeERF2 是乙烯诱导的，反义 TERF2/LeERF2 番茄中乙烯的产生受到抑制，这表明 TERF2/LeERF2 在乙烯生物合成中起正调控作用。在本文中，我们报道了 TERF2/LeERF2 在乙烯生物合成中的调节与烟草和番茄的抗冻性增强有关。基因表达分析表明，低温缓慢诱导番茄中 TERF2/LeERF2 的表达，这表明 TERF2/LeERF2 可能通过乙烯调节参与冷响应。为了验证该假说，我们首先观察到过表达 TERF2/LeERF2 的烟草不仅通过激活冷相关基因的表达来增强抗冻性，而且还显著降低了电解质渗漏。此外，在用乙烯生物合成抑制剂或乙烯受体拮抗剂处理后，我们还表明，阻断乙烯生物合成或乙烯信号通路会降低过表达 TERF2/LeERF2 的烟草的抗冻性。此外，来自番茄的结果表明，过表达 TERF2/LeERF2 的番茄增强了抗冻性，而反义 TERF2/LeERF2 转基因系则降低了抗冻性，并且施用乙烯前体 1-氨基环丙烷-1-羧酸恢复了反义系的抗冻性。因此，我们的结果表明，TERF2/LeERF2 通过乙烯生物合成和乙烯信号通路增强植物的抗冻性。

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过表达转录因子 TERF2/LeERF2 可增强烟草和番茄对冷冻的耐受性，其受乙烯生物合成调控。

Enhanced tolerance to freezing in tobacco and tomato overexpressing transcription factor TERF2/LeERF2 is modulated by ethylene biosynthesis.

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