甲硫氨酸氧化和乙烯信号组分MaEIL9的还原参与香蕉果实成熟过程。

Methionine oxidation and reduction of the ethylene signaling component MaEIL9 are involved in banana fruit ripening.

作者信息

Zhu Lisha, Chen Lin, Wu Chaojie, Shan Wei, Cai Danling, Lin Zengxiang, Wei Wei, Chen Jianye, Lu Wangjin, Kuang Jianfei

机构信息

State Key Laboratory for Conservation and Utilization of Subtropical Agro-bioresources/Guangdong Provincial Key Laboratory of Postharvest Science of Fruits and Vegetables/Engineering Research Center of Southern Horticultural Products Preservation, Ministry of Education, College of Horticulture, South China Agricultural University, Guangzhou, 510642, China.

Key Laboratory of Biology and Genetic Improvement of Horticultural Crops (South China), Ministry of Agriculture and Rural Affairs, College of Horticulture, South China Agricultural University, Guangzhou, 510642, China.

出版信息

J Integr Plant Biol. 2023 Jan;65(1):150-166. doi: 10.1111/jipb.13363. Epub 2022 Oct 25.

DOI:10.1111/jipb.13363

PMID:36103229

Abstract

The ethylene insensitive 3/ethylene insensitive 3-like (EIN3/EIL) plays an indispensable role in fruit ripening. However, the regulatory mechanism that links post-translational modification of EIN3/EIL to fruit ripening is largely unknown. Here, we studied the expression of 13 MaEIL genes during banana fruit ripening, among which MaEIL9 displayed higher enhancement particularly in the ripening stage. Consistent with its transcript pattern, abundance of MaEIL9 protein gradually increased during the ripening process, with maximal enhancement in the ripening. DNA affinity purification (DAP)-seq analysis revealed that MaEIL9 directly targets a subset of genes related to fruit ripening, such as the starch hydrolytic genes MaAMY3D and MaBAM1. Stably overexpressing MaEIL9 in tomato fruit hastened fruit ripening, whereas transiently silencing this gene in banana fruit retarded the ripening process, supporting a positive role of MaEIL9 in fruit ripening. Moreover, oxidation of methionines (Met-129, Met-130, and Met-282) in MaEIL9 resulted in the loss of its DNA-binding capacity and transcriptional activation activity. Importantly, we identified MaEIL9 as a potential substrate protein of methionine sulfoxide reductase A MaMsrA4, and oxidation of Met-129, Met-130, and Met-282 in MaEIL9 could be restored by MaMsrA4. Collectively, our findings reveal a novel regulatory network controlling banana fruit ripening, which involves MaMsrA4-mediated redox regulation of the ethylene signaling component MaEIL9.

摘要

乙烯不敏感3/乙烯不敏感3样蛋白（EIN3/EIL）在果实成熟过程中发挥着不可或缺的作用。然而，将EIN3/EIL的翻译后修饰与果实成熟联系起来的调控机制在很大程度上尚不清楚。在此，我们研究了13个MaEIL基因在香蕉果实成熟过程中的表达情况，其中MaEIL9在成熟阶段的表达增强尤为明显。与其转录模式一致，MaEIL9蛋白的丰度在成熟过程中逐渐增加，在成熟时达到最大增强。DNA亲和纯化（DAP）-seq分析表明，MaEIL9直接靶向与果实成熟相关的一组基因，如淀粉水解基因MaAMY3D和MaBAM1。在番茄果实中稳定过表达MaEIL9加速了果实成熟，而在香蕉果实中瞬时沉默该基因则延缓了成熟过程，这支持了MaEIL9在果实成熟中的积极作用。此外，MaEIL9中蛋氨酸（Met-129、Met-130和Met-282）的氧化导致其DNA结合能力和转录激活活性丧失。重要的是，我们确定MaEIL9是甲硫氨酸亚砜还原酶A MaMsrA4的潜在底物蛋白，MaMsrA4可以恢复MaEIL9中Met-129、Met-130和Met-282的氧化。总的来说，我们的研究结果揭示了一个控制香蕉果实成熟的新型调控网络，该网络涉及MaMsrA4介导的乙烯信号成分MaEIL9的氧化还原调节。

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甲硫氨酸氧化和乙烯信号组分MaEIL9的还原参与香蕉果实成熟过程。

Methionine oxidation and reduction of the ethylene signaling component MaEIL9 are involved in banana fruit ripening.

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