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DELLA 和 ARF/IAA 之间的相互作用介导赤霉素和生长素信号转导的串扰,以控制番茄果实的起始。

The Interaction between DELLA and ARF/IAA Mediates Crosstalk between Gibberellin and Auxin Signaling to Control Fruit Initiation in Tomato.

机构信息

Department of Biology, Duke University, Durham, North Carolina 27708.

The Robert H. Smith Institute of Plant Sciences and Genetics in Agriculture, Hebrew University, Rehovot 76100, Israel.

出版信息

Plant Cell. 2018 Aug;30(8):1710-1728. doi: 10.1105/tpc.18.00363. Epub 2018 Jul 15.

DOI:10.1105/tpc.18.00363
PMID:30008445
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6139683/
Abstract

Fruit initiation following fertilization in angiosperms is strictly regulated by phytohormones. In tomato (), auxin and gibberellin (GA) play central roles in promoting fruit initiation. Without fertilization, elevated GA or auxin signaling can induce parthenocarpy (seedless fruit production). The GA-signaling repressor SlDELLA and auxin-signaling components SlIAA9 and SlARF7 repress parthenocarpy, but the underlying mechanism is unknown. Here, we show that SlDELLA and the SlARF7/SlIAA9 complex mediate crosstalk between GA and auxin pathways to regulate fruit initiation. Yeast-two-hybrid and coimmunoprecipitation assays showed that SlARF7 and additional activator SlARFs interact with SlDELLA and SlIAA9 through distinct domains. SlARF7/SlIAA9 and SlDELLA antagonistically modulate the expression of feedback-regulated genes involved in GA and auxin metabolism, whereas SlARF7/SlIAA9 and SlDELLA coregulate the expression of fruit growth-related genes. Analysis of (), (with downregulated expression of multiple activator ), and () single and double mutants indicated that these genes additively affect parthenocarpy, supporting the notion that the SlARFs/SlIAA9 and SlDELLA interaction plays an important role in regulating fruit initiation. Analysis of the GA-deficient mutant showed that active GA biosynthesis and signaling are required for auxin-induced fruit initiation. Our study reveals how direct crosstalk between auxin- and GA-signaling components is critical for tomato fruit initiation.

摘要

授粉后被子植物的果实起始严格受植物激素调控。在番茄中,生长素和赤霉素(GA)在促进果实起始中起核心作用。在没有受精的情况下,升高的 GA 或生长素信号可以诱导单性结实(无籽果实生产)。GA 信号抑制剂 SlDELLA 和生长素信号成分 SlIAA9 和 SlARF7 抑制单性结实,但潜在的机制尚不清楚。在这里,我们表明 SlDELLA 和 SlARF7/SlIAA9 复合物介导 GA 和生长素途径之间的串扰,以调节果实起始。酵母双杂交和共免疫沉淀测定表明,SlARF7 和其他激活剂 SlARFs 通过不同的结构域与 SlDELLA 和 SlIAA9 相互作用。SlARF7/SlIAA9 和 SlDELLA 拮抗地调节参与 GA 和生长素代谢的反馈调节基因的表达,而 SlARF7/SlIAA9 和 SlDELLA 共同调节与果实生长相关的基因的表达。对 ()、 (下调多个激活子的表达)和 ()单突变体和双突变体的分析表明,这些基因对单性结实有累加效应,支持 SlARFs/SlIAA9 和 SlDELLA 相互作用在调节果实起始中起重要作用的观点。对 GA 缺陷突变体 ()的分析表明,活性 GA 生物合成和信号是生长素诱导果实起始所必需的。我们的研究揭示了生长素和 GA 信号成分之间的直接串扰如何对番茄果实起始至关重要。

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