双 NCED 同工酶控制 ABA 的生物合成，以调节桃果实的成熟和衰老。

Double NCED isozymes control ABA biosynthesis for ripening and senescent regulation in peach fruits.

机构信息

College of Horticulture, Agricultural University of Hebei, Baoding, Hebei, 071000, China.

Horticulture Section, School of Integrative Plant Science, Cornell University, Cornell AgriTech, Geneva, NY, USA.

出版信息

Plant Sci. 2021 Mar;304:110739. doi: 10.1016/j.plantsci.2020.110739. Epub 2020 Nov 4.

DOI:10.1016/j.plantsci.2020.110739

PMID:33568291

Abstract

During ripening, peach fruits (Prunus persica L. Batsch) rapidly progress to the senescent stage, resulting in a brief shelf life. Abscisic acid (ABA) plays an important role in regulating the ripening process, both in climacteric and non-climacteric fruits. A key enzyme for ABA biosynthesis in higher plants is 9-cis-epoxycarotenoid dioxygenase (NCED). In this study, two NCED isozymes, PpNCED1 and PpNCED5, were identified in peach fruits. While both NCED genes had similar transcriptional patterns (up-regulation) at the beginning of peach ripening, PpNCED5 showed a consistently lower expression level than PpNCED1. During the post-harvest stage, gene expression of PpNCED1 declined, while PpNCED5 expression increased relative to PpNCED1 expression. Considering the dynamic process of ABA accumulation during fruit ripening and senescence in peach, this study indicates that both NCED genes cooperatively control ABA biosynthesis in peach fruits. Moreover, spatio-temporal expression and transcriptional response to hormone and abiotic stress suggested that there is functional divergence between PpNCED1 and PpNCED5 genes in peach. A carotenoid-rich callus system was used to verify the function of PpNCED1 and PpNCED5. In the transgenic callus system, both PpNCED1 and PpNCED5 isozymes promoted ABA biosynthesis, which likely accelerated cell senescence through activating ROS signals. The results from this study provide evidence supporting an ABA biosynthetic regulation process via the two NCED genes in peach fruit, and suggest a mechanism of ABA-induced fruit ripening and senescence.

摘要

在成熟过程中，桃果实（Prunus persica L. Batsch）迅速进入衰老阶段，导致货架期短暂。脱落酸（ABA）在调节成熟过程中起着重要作用，无论是在跃变型和非跃变型果实中。高等植物中 ABA 生物合成的关键酶是 9-顺式-环氧类胡萝卜素双加氧酶（NCED）。在这项研究中，在桃果实中鉴定出了两种 NCED 同工酶，即 PpNCED1 和 PpNCED5。虽然这两个 NCED 基因在桃成熟开始时具有相似的转录模式（上调），但 PpNCED5 的表达水平始终低于 PpNCED1。在采后阶段，PpNCED1 的基因表达下降，而 PpNCED5 的表达相对于 PpNCED1 的表达增加。考虑到 ABA 在桃果实成熟和衰老过程中的积累动态，本研究表明这两个 NCED 基因共同控制桃果实中 ABA 的生物合成。此外，时空表达和对激素和非生物胁迫的转录响应表明，PpNCED1 和 PpNCED5 基因在桃中存在功能分化。使用富含类胡萝卜素的愈伤组织系统来验证 PpNCED1 和 PpNCED5 的功能。在转基因愈伤组织系统中，PpNCED1 和 PpNCED5 同工酶均促进 ABA 生物合成，这可能通过激活 ROS 信号加速细胞衰老。本研究结果为桃果实中通过两个 NCED 基因进行 ABA 生物合成调节过程提供了证据，并提出了 ABA 诱导果实成熟和衰老的机制。

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双 NCED 同工酶控制 ABA 的生物合成，以调节桃果实的成熟和衰老。

Double NCED isozymes control ABA biosynthesis for ripening and senescent regulation in peach fruits.

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