Cloning and functional identification of anthocyanin synthesis-regulating transcription factor AaMYB4 in Aeonium arboreum Webb & Berthel ‘Halloween’

IF 1.4 4区 生物学 Q3 PLANT SCIENCES
Rong Zhao, Su-Hua Li, Hao-Zhang Han, Li-Hua Zhang, Fang Wang, Nan Zhang
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Abstract

Succulents are widely appreciated for indoor decoration, primarily due to their vibrant leaf colors. However, the underlying mechanisms of leaf color development in succulents remain largely unexplored. In this study, we isolated AaMYB4, an MYB transcription factor that represses anthocyanin synthesis, from an ornamental succulent, Aeonium arboreum Webb & Berthel ‘Halloween’. Our study incorporated gene cloning, bioinformatics, functional validation of transgenes, and yeast two-hybrid assays to investigate AaMYB4’s role. The finding revealed that the full-length Open Reading Frame (ORF) of AaMYB4 spans 825 base pairs, encoding 274 amino acids. Bioinformatics analyses suggested that AaMYB4 functions as an R2R3-MYB transcription factor suppressing flavonoid biosynthesis, characterized by a typical repressive EAR motif. Functional validation of transgenes for AaMYB4 indicated that the anthocyanin content was significantly reduced in AaMYB4 overexpressing Arabidopsis compared with the WT under nitrogen deficiency, high light exposure, 6% sucrose, and abscisic acid (ABA) treatment, and the structural genes for anthocyanin synthesis were down-regulated in the AaMYB4 transgenic Arabidopsis. Furthermore, in terms of transcription factors in the AaMYB4 transgenic Arabidopsis, the expression levels of AtPAP1 and AtTT8 exhibited a significant downregulation. Yeast two-hybrid assays revealed no interaction between AaMYB4 and AaTT8, and the AaMYB4 protein can self-interact. This research confirmed the role of AaMYB4 in inhibiting anthocyanin synthesis in ‘Halloween’ leaves, enriching our understanding of the molecular basis of leaf color formation in succulents. Additionally, it offers valuable genetic insights for developing new ‘Halloween’ colorful leaf varieties.

Abstract Image

花青素合成调控转录因子 AaMYB4 在 Aeonium arboreum Webb & Berthel 'Halloween' 中的克隆和功能鉴定
多肉植物被广泛用作室内装饰,主要是因为其叶片色彩鲜艳。然而,多肉植物叶色形成的内在机制在很大程度上仍未得到探索。在这项研究中,我们从观赏性多肉植物 Aeonium arboreum Web &bamp; Berthel 'Halloween' 中分离出了抑制花青素合成的 MYB 转录因子 AaMYB4。我们的研究结合了基因克隆、生物信息学、转基因功能验证和酵母双杂交试验,以研究 AaMYB4 的作用。研究结果显示,AaMYB4的全长开放阅读框(ORF)跨度为825个碱基对,编码274个氨基酸。生物信息学分析表明,AaMYB4是一种抑制类黄酮生物合成的R2R3-MYB转录因子,具有典型的抑制性EAR基序。AaMYB4转基因的功能验证表明,在缺氮、强光照射、6%蔗糖和脱落酸(ABA)处理下,与WT相比,AaMYB4过表达拟南芥的花青素含量显著降低,花青素合成的结构基因在AaMYB4转基因拟南芥中下调。此外,在 AaMYB4 转基因拟南芥的转录因子中,AtPAP1 和 AtTT8 的表达水平出现了明显的下调。酵母双杂交实验表明,AaMYB4和AaTT8之间没有相互作用,AaMYB4蛋白可以自我相互作用。这项研究证实了 AaMYB4 在抑制 "万圣节 "叶片花青素合成中的作用,丰富了我们对多肉植物叶色形成的分子基础的认识。此外,它还为开发新的'万圣节'彩叶品种提供了宝贵的遗传学见解。
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来源期刊
Brazilian Journal of Botany
Brazilian Journal of Botany Agricultural and Biological Sciences-Plant Science
CiteScore
3.00
自引率
12.50%
发文量
72
期刊介绍: The Brazilian Journal of Botany is an international journal devoted to publishing a wide-range of research in plant sciences: biogeography, cytogenetics, ecology, economic botany, physiology and biochemistry, morphology and anatomy, molecular biology and diversity phycology, mycology, palynology, and systematics and phylogeny. The journal considers for publications original articles, short communications, reviews, and letters to the editor. Manuscripts describing new taxa based on morphological data only are suitable for submission; however information from multiple sources, such as ultrastructure, phytochemistry and molecular evidence are desirable. Floristic inventories and checklists should include new and relevant information on other aspects, such as conservation strategies and biogeographic patterns. The journal does not consider for publication submissions dealing exclusively with methods and protocols (including micropropagation) and biological activity of extracts with no detailed chemical analysis.
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