Zhiying Li, Jiabin Wang, Junfang Zhang, Yunliu Fu, Yonglin Jing, Bilan Huang, Huazhou Wu, Chunyang Meng, Li Xu
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引用次数: 0
摘要
背景:南海(N. speciosa)是一种传统的药用和食用植物。南海棠属植物中仅有的两种是斑叶南海棠(N. speciosa)和fordii (N. fordii),但后者的利用有限。作为一种近缘种,fordii的外观和味道与斑胸草非常相似,在市场上被用来冒充对健康有潜在危害的斑胸草。结果:我们对两种植物的基因组、转录组学和代谢组学数据进行了全面比较,分析了它们之间的差异及其基础。利用PacBio HiFi和Hi-C数据,我们获得了高质量的物种和fordii单倍体基因组。比较分析显示,紫藤凝集素样基因在紫藤中的表达升高,对应的是紫藤中抗热凝集素的含量高于紫藤,可能由于植物中凝集素含量升高而引起食物中毒。代谢组学分析表明,甘草皂苷是fordii和N. speciosa的主要甜味成分,使其成为除甘草属外唯一含有甘草皂苷的植物。另外,结瘤关键基因RPG在褐毛茛根中不能表达,这可能解释了为何褐毛茛能形成结瘤,而褐毛茛却不能。结论:利用高质量的单倍体基因组组装和多组学分析,我们的数据为鉴定fordii和N. speciosa的关键代谢成分和重要性状相关的候选基因以及培育新品种提供了重要的基础。
Multi-omics profiling of Nanhaia speciosa and Nanhaia fordii: insights into lectin dynamics, nodulation, and triterpenoid saponin biosynthesis.
Background: Nanhaia speciosa (N. speciosa) has long been served as a traditional medicinal and edible plant. N. speciosa and Nanhaia fordii (N. fordii) are the only two species under the Nanhaia genus, but the latter is of limited use. As a closely related species, N. fordii has a highly similar appearance and taste to N. speciosa and was used in the market to impersonate N. speciosa with potential harm to health.
Results: To analyze the differences and underlying basis between N. speciosa and N. fordii, we conducted a comprehensive comparison of their genomic, transcriptomic, and metabolomic data. Using PacBio HiFi and Hi-C data, we achieved high-quality haploid genomes for both N. speciosa and N. fordii. Comparative analysis reveals the elevated expression of Wisteria lectin-like genes in N. fordii, corresponding with higher heat-resistance lectin content in N. fordii than in N. speciosa, potentially causing food poisoning due to increased lectin levels in the plant. Metabolomic analysis indicates that licorice saponins are the main components contributing to the sweetness in N. fordii and N. speciosa, making it the only reported plant, apart from the licorice genus, containing licorice saponins. Moreover, the nodulation key gene RPG cannot be expressed in the roots of N. speciosa, possibly explaining the ability of N. fordii to form nodules while N. speciosa cannot.
Conclusions: Leveraging high-quality haploid genome assembly and multi-omics analysis, our data provides a crucial foundation for identifying key metabolic components and candidate genes associated with important traits and for breeding new varieties of N. fordii and N. speciosa.
期刊介绍:
BMC Biology is a broad scope journal covering all areas of biology. Our content includes research articles, new methods and tools. BMC Biology also publishes reviews, Q&A, and commentaries.
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