多组学图谱解密黄芩跨多种组织的独特类黄酮生物合成。

IF 7.6 Q1 GENETICS & HEREDITY
园艺研究(英文) Pub Date : 2023-11-13 eCollection Date: 2024-01-01 DOI:10.1093/hr/uhad258
Dandan Guo, Zhenyu Zhu, Zhe Wang, Fei Feng, Qi Cao, Zhewei Xia, Xinlei Jia, Diya Lv, Ting Han, Xiaofei Chen
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引用次数: 0

摘要

黄芩(Scutellaria baicalensis Georgi)在中药中又称黄芩,因其具有抗癌、抗病毒和保肝的功效而被广泛使用。多年前,黄芩的基因组就已测序完成;相比之下,作为黄芩气生部分大部分生物过程的执行者的蛋白质组,以及根部的次生结构(木质部、韧皮部和外皮),其特征却远没有这么全面。在此,我们尝试通过多组学方法描绘非模式植物黄芩的分子图谱,目的是构建一个信息量大、有价值的参考数据集。此外,我们还提供了深入的特征剖析,从蛋白质和磷酸化蛋白质水平解释了存在于气生部分和根部的两种不同的类黄酮生物合成途径。我们的研究提供了二级结构背景下详细的空间蛋白质组和磷酸化蛋白质组信息,对非模式药用植物中二级代谢物生物合成的分子剖析具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-omics landscape to decrypt the distinct flavonoid biosynthesis of Scutellaria baicalensis across multiple tissues.

Scutellaria baicalensis Georgi, also known as huang-qin in traditional Chinese medicine, is a widely used herbal remedy due to its anticancer, antivirus, and hepatoprotective properties. The S. baicalensis genome was sequenced many years ago; by contrast, the proteome as the executer of most biological processes of S. baicalensis in the aerial parts, as well as the secondary structure of the roots (xylem, phloem, and periderm), is far less comprehensively characterized. Here we attempt to depict the molecular landscape of the non-model plant S. baicalensis through a multi-omics approach, with the goal of constructing a highly informative and valuable reference dataset. Furthermore, we provide an in-depth characterization dissection to explain the two distinct flavonoid biosynthesis pathways that exist in the aerial parts and root, at the protein and phosphorylated protein levels. Our study provides detailed spatial proteomic and phosphoproteomic information in the context of secondary structures, with implications for the molecular profiling of secondary metabolite biosynthesis in non-model medicinal plants.

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CiteScore
12.90
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