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PpIAA1 和 PpERF4 通过整合生长素和乙烯信号形成正反馈环来调节桃果实成熟。

PpIAA1 and PpERF4 form a positive feedback loop to regulate peach fruit ripening by integrating auxin and ethylene signals.

机构信息

Zhengzhou Fruit Research Institute, Chinese Academy of Agricultural Sciences, Zhengzhou, 450009, PR China.

Zhengzhou Fruit Research Institute, Chinese Academy of Agricultural Sciences, Zhengzhou, 450009, PR China; The New Zealand Institute for Plant & Food Research Limited, Auckland, New Zealand.

出版信息

Plant Sci. 2021 Dec;313:111084. doi: 10.1016/j.plantsci.2021.111084. Epub 2021 Oct 7.

DOI:10.1016/j.plantsci.2021.111084
PMID:34763869
Abstract

The signaling pathways of both auxin and ethylene regulate peach fruit ripening via the Aux/IAA and ERF transcription factors, respectively. However, the molecular mechanisms that coordinate both auxin and ethylene signals during peach fruit ripening remain unclear. In this study, we show that PpIAA1 and PpERF4 act as key players in a positive feedback loop, and promote peach fruit ripening by directly binding to and enhancing the activity of target gene promoters. PpIAA1 increased the expression of the ethylene biosynthesis gene PpACS1. Furthermore, PpERF4 enhanced the transcription of PpACO1 and PpIAA1 genes by binding to their promoters. Additionally, PpIAA1 and PpERF4 bound to each other to form a complex, which then enhanced the transcription of abscisic acid biosynthesis genes (PpNCED2 and PpNCED3) and the fruit softening gene (PpPG1) to levels higher than those achieved by each transcription factor individually. Moreover, overexpression of PpIAA1 in tomato accelerated fruit ripening and shortened the fruit shelf-life by increasing the production of ethylene and the expression levels of ripening regulator genes. Collectively, these results advance our understanding of the molecular mechanisms underlying peach fruit ripening and softening via auxin and ethylene signaling pathways.

摘要

生长素和乙烯的信号通路分别通过Aux/IAA 和 ERF 转录因子调控桃果实成熟。然而,生长素和乙烯信号在桃果实成熟过程中协调的分子机制尚不清楚。在本研究中,我们表明 PpIAA1 和 PpERF4 作为正反馈回路中的关键因子,通过直接结合并增强靶基因启动子的活性,促进桃果实成熟。PpIAA1 增加了乙烯生物合成基因 PpACS1 的表达。此外,PpERF4 通过结合其启动子增强 PpACO1 和 PpIAA1 基因的转录。此外,PpIAA1 和 PpERF4 相互结合形成复合物,从而增强了脱落酸生物合成基因(PpNCED2 和 PpNCED3)和果实软化基因(PpPG1)的转录,使其表达水平高于每个转录因子单独作用的水平。此外,在番茄中过表达 PpIAA1 通过增加乙烯的产生和成熟调节基因的表达水平,加速果实成熟并缩短果实货架期。总之,这些结果增进了我们对生长素和乙烯信号通路调控桃果实成熟和软化的分子机制的理解。

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