VvFHY3 links auxin and endoplasmic reticulum stress to regulate grape anthocyanin biosynthesis at high temperatures.

IF 10 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Plant Cell Pub Date : 2024-11-14 DOI:10.1093/plcell/koae303
Yanzhao Sun, Yanyan Zheng, Wenyuan Wang, Heng Yao, Zain Ali, Mengwei Xiao, Zhaodong Ma, Jingjing Li, Wenfei Zhou, Jing Cui, Kun Yu, Yang Liu
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引用次数: 0

Abstract

Anthocyanins affect quality in fruits such as grape (Vitis vinifera). High temperatures reduce anthocyanin levels by suppressing the expression of anthocyanin biosynthesis genes and decreasing the biosynthetic rate. However, the regulatory mechanisms that coordinate these two processes remain largely unknown. In this study, we demonstrate that high-temperature-mediated inhibition of anthocyanin biosynthesis in grape berries depends on the auxin and endoplasmic reticulum (ER) stress pathways. Inactivation of these pathways restores anthocyanin accumulation under high temperatures. We identified and characterized FAR-RED ELONGATED HYPOCOTYL3 (FHY3), a high-temperature-modulated transcription factor that activates multiple anthocyanin biosynthesis genes by binding to their promoters. The auxin response factor VvARF3 interacts with VvFHY3 and represses its transactivation activity, antagonizing VvFHY3-induced anthocyanin biosynthesis. Additionally, we found that the ER stress sensor VvbZIP17 represses anthocyanin biosynthesis. VvFHY3 suppresses VvbZIP17 activity by directly binding to the VvbZIP17 promoter to repress its transcription and by physically interacting with VvbZIP17 to block its DNA binding ability. Furthermore, AUXIN RESPONSE FACTOR 3 (ARF3) interferes with the VvFHY3-VvbZIP17 interaction, releasing VvbZIP17 to activate the unfolded protein response and further suppress anthocyanin production. Our results unravel the VvARF3-VvFHY3-VvbZIP17 regulatory module, which links the auxin and ER stress pathways to coordinately repress anthocyanin structural gene expression and biosynthesis under high-temperature stress.

VvFHY3 将叶绿素和内质网应激联系起来,调节高温下葡萄花青素的生物合成。
花青素会影响葡萄等水果的品质。高温会抑制花青素生物合成基因的表达并降低生物合成率,从而降低花青素的含量。然而,协调这两个过程的调控机制在很大程度上仍不为人所知。在这项研究中,我们证明高温介导的葡萄浆果花青素生物合成抑制取决于辅助素和内质网(ER)应激途径。使这些途径失活可恢复高温下的花青素积累。我们发现并鉴定了 FAR-RED ELONGATED HYPOCOTYL3 (FHY3),它是一种受高温调节的转录因子,能通过与多个花青素生物合成基因的启动子结合激活这些基因。辅助因子 VvARF3 与 VvFHY3 相互作用并抑制其转录激活活性,从而拮抗 VvFHY3 诱导的花青素生物合成。此外,我们还发现ER胁迫传感器VvbZIP17抑制了花青素的生物合成。VvFHY3 通过直接与 VvbZIP17 启动子结合来抑制其转录,并通过与 VvbZIP17 的物理相互作用来阻断其 DNA 结合能力,从而抑制 VvbZIP17 的活性。此外,AUXIN RESPONSE FACTOR 3 (ARF3) 会干扰 VvFHY3-VvbZIP17 的相互作用,释放 VvbZIP17 激活未折叠蛋白反应,进一步抑制花青素的产生。我们的研究结果揭示了VvARF3-VvFHY3-VvbZIP17调控模块,它连接了辅助素和ER胁迫途径,在高温胁迫下协调抑制花青素结构基因的表达和生物合成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Plant Cell
Plant Cell 生物-生化与分子生物学
CiteScore
16.90
自引率
5.20%
发文量
337
审稿时长
2.4 months
期刊介绍: Title: Plant Cell Publisher: Published monthly by the American Society of Plant Biologists (ASPB) Produced by Sheridan Journal Services, Waterbury, VT History and Impact: Established in 1989 Within three years of publication, ranked first in impact among journals in plant sciences Maintains high standard of excellence Scope: Publishes novel research of special significance in plant biology Focus areas include cellular biology, molecular biology, biochemistry, genetics, development, and evolution Primary criteria: articles provide new insight of broad interest to plant biologists and are suitable for a wide audience Tenets: Publish the most exciting, cutting-edge research in plant cellular and molecular biology Provide rapid turnaround time for reviewing and publishing research papers Ensure highest quality reproduction of data Feature interactive format for commentaries, opinion pieces, and exchange of information in review articles, meeting reports, and insightful overviews.
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