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多个不定域(IDD)-DELLA1 复合物参与桃中赤霉素反馈调节。

Multiple indeterminate domain (IDD)-DELLA1 complexes participate in gibberellin feedback regulation in peach.

机构信息

College of Horticulture, Henan Agricultural University, 95 Wenhua Road, Zhengzhou, 450002, Henan Province, China.

出版信息

Plant Mol Biol. 2022 May;109(1-2):147-157. doi: 10.1007/s11103-022-01263-y. Epub 2022 Apr 1.

DOI:10.1007/s11103-022-01263-y
PMID:35362935
Abstract

Peach encodes 14 INDETERMINATE DOMAIN (IDD) transcription factors. PpIDD4, -12 and -13 mediated PpDELLA1 binding to the PpGA20ox1 promoter. Each of these three PpIDD-DELLA1 complexes activated transcription of PpGA20ox1. PpTPR1 and -4 interrupted the interaction of PpIDDs with PpDELLA1. The plant growth regulator gibberellin (GA) plays an important role in the rapid growth of annual shoots in peach. Our previous study showed that the peach cultivar 'FenHuaShouXingTao' (FHSXT), a gibberellic acid receptor (gid1) mutant, accumulates active GAs in annual shoot tips. This mutant enhances GA feedback regulation in peach. The results of this study suggested that the PpIDD-DELLA1 complex is the underlying mechanism of GA feedback regulation in peach. Fourteen IDD genes were identified in peach, and three PpIDDs (PpIDD4, -12 and -13, all from group IV) interacted with PpDELLA1, an important component in GA signaling pathway. Truncation, segmentation and site mutation of the promoter of PpGA20ox1 (a GA biosynthesis gene) showed that all three PpIDD proteins recognized the core motif TTGTC. PpIDD4 and -13 mainly bind to site 3, while PpIDD12 binds to site 5 of the PpGA20ox1 promoter. All three PpIDD-DELLA1 complexes activated the PpGA20ox1 promoter-LUC fusion. These data suggested that PpIDDs bridge PpDELLA1 and the promoter of PpGA20ox1, which then activated the transcription of PpGA20ox1. In addition, PpTPR1 and -4 disrupted the interaction of PpIDDs with PpDELLA1. Our research will be helpful for understanding and possibly modifying the regulation of annual shoot growth and GA biosynthesis.

摘要

桃含有 14 个不确定域(IDD)转录因子。PpIDD4、-12 和 -13 介导 PpDELLA1 与 PpGA20ox1 启动子结合。这三个 PpIDD-DELLA1 复合物中的每一个都激活了 PpGA20ox1 的转录。PpTPR1 和 -4 中断了 PpIDDs 与 PpDELLA1 的相互作用。植物生长调节剂赤霉素(GA)在桃一年生枝条的快速生长中起着重要作用。我们之前的研究表明,桃品种‘丰华寿仙桃’(FHSXT)是赤霉素受体(gid1)突变体,在一年生枝条顶端积累有活性的 GA。该突变体增强了桃中 GA 的反馈调控。本研究结果表明,PpIDD-DELLA1 复合物是桃中 GA 反馈调控的潜在机制。在桃中鉴定出 14 个 IDD 基因,其中 3 个 PpIDD(PpIDD4、-12 和 -13,均来自 IV 组)与 PpDELLA1 相互作用,PpDELLA1 是 GA 信号通路中的一个重要组成部分。PpGA20ox1(GA 生物合成基因)启动子的截断、分段和位点突变表明,所有 3 个 PpIDD 蛋白都识别核心基序 TTGTC。PpIDD4 和 -13 主要结合位点 3,而 PpIDD12 结合位点 5。所有 3 个 PpIDD-DELLA1 复合物都激活了 PpGA20ox1 启动子-LUC 融合。这些数据表明,PpIDDs 桥接 PpDELLA1 和 PpGA20ox1 启动子,从而激活 PpGA20ox1 的转录。此外,PpTPR1 和 -4 破坏了 PpIDDs 与 PpDELLA1 的相互作用。我们的研究将有助于理解和可能修饰一年生枝条生长和 GA 生物合成的调控。

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