MdUGT88F4 involved in the synthesis of isosalipurposide positively regulates the salt stress response of apple plants

IF 5.7 1区农林科学 Q1 HORTICULTURE Horticultural Plant Journal Pub Date : 2024-12-07 DOI:10.1016/j.hpj.2024.07.006

Ying Ye, Yanrong Hu, Yuan Liu, Cheng Yu, Kun Zhou, Fengwang Ma, Xiaoqing Gong

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Abstract

UGT (UDP-dependent glycosyltransferase) family members are mainly involved in the modification of secondary metabolites, as well as plant stress responses. Previously, we identified the UGT gene MdUGT88F4 from Malus spp. In order to verify whether it had biological function in apple plants, we generated transgenic apple plants overexpressed MdUGT88F4 and treated them with salt stress. The results showed that it conferred enhanced salt stress tolerance in transgenic ‘GL-3’ apple (Malus domestica) plants. The expression of MdUGT88F4 was induced by salt stress, and overexpression of this gene alleviated the inhibitory effects of salt stress on the growth of apple plants. After 15 days of salt stress treatment (100 mmol·L−1 NaCl), necrotic spots were present on the leaves of wild-type (WT) plants, and none were observed on the leaves of transgenic plants overexpressing MdUGT88F4 (OX). The relative electrolyte leakage and malondialdehyde content were lower and the total chlorophyll content and the relative water content were higher in OX plants than in WT plants. The photosynthetic efficiency was higher in OX plants than in WT plants under salt stress, which was consistent with their larger stomatal aperture; this might stem from a reduction in the content of abscisic acid. The production of reactive oxygen species was lower and the activities of antioxidant enzymes were higher in OX plants than in WT plants. In addition, OX plants accumulated less Na+ but more K+ than WT plants, and the expression of several genes involved in Na + transport was upregulated in OX plants. MdUGT88F4 failed to promote the accumulation of isosalipurposide in vivo, and it was involved in isosalipurposide synthesis. Most of the flavonoid metabolites accumulated to a greater degree in OX plants than in WT plants. In summary, our results show that MdUGT88F4 positively regulates the salt stress response in apple plants, possibly by affecting stomatal movement, as well as the accumulation of ions and flavonoids. Our findings enhance our understanding of the metabolic mechanisms by which UGT proteins ameliorate the effects of salt stress in plants.

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参与异糖苷合成的MdUGT88F4正调控苹果植株的盐胁迫反应

UGT （udp依赖性糖基转移酶）家族成员主要参与次生代谢产物的修饰以及植物的胁迫反应。此前，我们从苹果中鉴定出UGT基因MdUGT88F4，为了验证其在苹果植株中是否具有生物学功能，我们制作了过表达MdUGT88F4的转基因苹果植株，并对其进行盐胁迫处理。结果表明，转基因“GL-3”苹果（Malus domestica）植株耐盐性增强。盐胁迫诱导MdUGT88F4的表达，该基因的过表达减轻了盐胁迫对苹果植株生长的抑制作用。盐胁迫（100 mmol·L−1 NaCl）处理15 d后，野生型（WT）植株的叶片上出现了坏死斑，而过表达MdUGT88F4 （OX）的转基因植株的叶片上没有坏死斑。与WT相比，OX植株的相对电解质泄漏量和丙二醛含量较低，总叶绿素含量和相对含水量较高。盐胁迫下OX植株的光合效率高于WT植株，这与其气孔孔径较大一致；这可能源于脱落酸含量的减少。氧化植株的活性氧产量低于WT植株，抗氧化酶活性高于WT植株。此外，与WT植株相比，OX植株Na+积累较少，而K+积累较多，并且参与Na+运输的几个基因在OX植株中表达上调。MdUGT88F4在体内不能促进异糖醛酸苷的积累，参与异糖醛酸苷的合成。多数黄酮类代谢产物在OX植株中的积累程度大于WT植株。综上所述，我们的研究结果表明，MdUGT88F4可能通过影响气孔运动以及离子和黄酮类化合物的积累来正向调节苹果植株的盐胁迫反应。我们的发现增强了我们对UGT蛋白改善植物盐胁迫效应的代谢机制的理解。

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来源期刊

Horticultural Plant Journal Environmental Science-Ecology

CiteScore

9.60

自引率

14.00%

发文量

293

审稿时长

33 weeks

期刊介绍： Horticultural Plant Journal (HPJ) is an OPEN ACCESS international journal. HPJ publishes research related to all horticultural plants, including fruits, vegetables, ornamental plants, tea plants, and medicinal plants, etc. The journal covers all aspects of horticultural crop sciences, including germplasm resources, genetics and breeding, tillage and cultivation, physiology and biochemistry, ecology, genomics, biotechnology, plant protection, postharvest processing, etc. Article types include Original research papers, Reviews, and Short communications.