受短日照和低温调控的基因是葡萄花蕾内休眠开始和停止的关键因素

IF 3.5 3区 生物学 Q1 PLANT SCIENCES
Sebastián Rubio, Ximena Noriega, Francisco J. Pérez
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引用次数: 0

摘要

葡萄花蕾表现出内休眠(ED),由短日照(SD)引发,并通过长时间暴露于低温(LT)而终止。本研究旨在揭示启动和终止内休眠的遗传基础。通过之前报道的与SD相关的基因表达变化以及与遭受LT的葡萄芽的RNA-seq分析进行比较,我们阐明了具有不同调控模式的基因簇。其中一个基因簇被称为 "热调节时钟基因簇",包含了46个差异表达基因(DEGs),它们在SD条件下上调,而在LT条件下下调。功能分析显示,这些基因富集了昼夜节律时钟和温度响应功能。相比之下,由 292 个 DEGs 组成的 "生长控制集群 "在自毁条件下下调,但在低温条件下上调,富集了与细胞分裂和转录调控相关的功能。这项研究强调了与昼夜节律、温度响应、细胞分裂和转录调控相关的基因在协调葡萄芽从 ED 进入和退出过程中的关键作用。此外,我们还提出了一个机理模型,即 LT 诱导的昼夜节律时钟基因抑制会引起 SD 抑制基因的上调,从而促进 ED。因此,我们可以从分子水平上理解 LT 在使花蕾摆脱 ED 方面所起的作用。这项研究不仅加深了我们对芽 ED 遗传基础的理解,而且对葡萄栽培和植物休眠调控具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Genes contrastingly regulated by short days and low temperature are key players in the onset and cessation of endodormancy in grapevine buds

Genes contrastingly regulated by short days and low temperature are key players in the onset and cessation of endodormancy in grapevine buds

Grapevine buds exhibit endodormancy (ED), triggered by short days (SD) and terminated through prolonged exposure to low temperature (LT). This study aims to unravel the genetic underpinnings the initiation and cessation of ED. Through previously reported SD-related gene expression changes and comparison with RNA-seq analysis of grapevine buds subjected to LT, we elucidated distinct gene clusters with contrasting regulation patterns. One cluster termed “Thermoregulatory Clock Cluster” encompassed 46 differential expressed genes (DEGs) upregulated by SD but downregulated under LT condition. Functional analysis revealed enrichment in circadian clock and temperature responsiveness functions. In contrast, the “Growth Control Cluster” comprising 292 DEGs downregulated under SD but upregulated under LT, is enriched in functions associated with cell division and transcription regulation. This investigation underscores the pivotal roles of genes associated with circadian clock, temperature responsiveness, cell division and transcriptional regulation in orchestrating the entry and exit of grapevine buds from ED. Furthermore, we propose a mechanistic model wherein LT-induced repression of circadian clock genes provokes the upregulation of SD-suppressed genes that promote ED. Thus, the role of LT in releasing buds from ED can be understood at the molecular level. This study not only advances our understanding of the genetic basis of bud ED, but also holds implications for viticulture and broader insights into plant dormancy regulation.

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来源期刊
Plant Growth Regulation
Plant Growth Regulation 生物-植物科学
CiteScore
6.90
自引率
9.50%
发文量
139
审稿时长
4.5 months
期刊介绍: Plant Growth Regulation is an international journal publishing original articles on all aspects of plant growth and development. We welcome manuscripts reporting question-based research using hormonal, physiological, environmental, genetical, biophysical, developmental or molecular approaches to the study of plant growth regulation. Emphasis is placed on papers presenting the results of original research. Occasional reviews on important topics will also be welcome. All contributions must be in English.
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