结合全长转录组学和代谢组学分析,揭示茱莉叶报春花营养成分和味觉成分发育的分子机制。

IF 1.9 Q3 GENETICS & HEREDITY BMC genomic data Pub Date : 2024-05-23 DOI:10.1186/s12863-024-01231-z
Yi Zhang, Endian Yang, Qin Liu, Jie Zhang, Chen Feng
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引用次数: 0

摘要

背景:茱莉亚樱草(Primulina juliae)是最近出现的一种新型功能性蔬菜,其生物量大、钙含量高。为了驯化茱莉亚樱草,人们采用了各种育种策略。然而,基因组和转录组信息的缺失阻碍了对这种植物的味道和营养成分机制的研究。在本研究中,我们结合全长转录组学和代谢组学进行了综合分析,以揭示茱莉亚蕨菜营养成分和味道成分形成的分子机制:结果:通过结合 PacBio Iso-seq 和 Illumina 测序技术,我们获得了一个高质量的 P. juliae 参考转录组。共获得 58,536 个聚类共识序列,包括 28,168 个完整的蛋白质编码转录本和 8,021 个长非编码 RNA。在叶片发育过程中,与营养和味道相关的化合物(尤其是类黄酮)的组成和含量存在显著差异。我们的研究结果表明,大多数黄酮类化合物的含量随着叶片的生长而减少。苹果酸盐和琥珀酸盐随着叶片的生长而积累,而一些糖类代谢物则有所减少。此外,我们还发现了氨基酸和脂肪酸的不同积累情况,这与口味特征有关。此外,我们的转录组分析为理解叶片发育过程中的代谢变化提供了分子基础。我们在两个发育阶段发现了 4,689 个差异表达基因,并通过全面的转录组和代谢组分析,发现了参与通路的关键结构基因和转录因子:本研究提供了高质量的参考转录组,并揭示了与茱莉亚鹦鹉营养成分和味觉成分发育相关的分子机制。这些发现将加深我们对茄子作为蔬菜的育种和利用的理解。
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Combined full-length transcriptomic and metabolomic analysis reveals the molecular mechanisms underlying nutrients and taste components development in Primulina juliae.

Background: Primulina juliae has recently emerged as a novel functional vegetable, boasting a significant biomass and high calcium content. Various breeding strategies have been employed to the domestication of P. juliae. However, the absence of genome and transcriptome information has hindered the research of mechanisms governing the taste and nutrients in this plant. In this study, we conducted a comprehensive analysis, combining the full-length transcriptomics and metabolomics, to unveil the molecular mechanisms responsible for the development of nutrients and taste components in P. juliae.

Results: We obtain a high-quality reference transcriptome of P. juliae by combing the PacBio Iso-seq and Illumina sequencing technologies. A total of 58,536 cluster consensus sequences were obtained, including 28,168 complete protein coding transcripts and 8,021 Long Non-coding RNAs. Significant differences were observed in the composition and content of compounds related to nutrients and taste, particularly flavonoids, during the leaf development. Our results showed a decrease in the content of most flavonoids as leaves develop. Malate and succinate accumulated with leaf development, while some sugar metabolites were decreased. Furthermore, we identified the different accumulation of amino acids and fatty acids, which are associated with taste traits. Moreover, our transcriptomic analysis provided a molecular basis for understanding the metabolic variations during leaf development. We identified 4,689 differentially expressed genes in the two developmental stages, and through a comprehensive transcriptome and metabolome analysis, we discovered the key structure genes and transcription factors involved in the pathways.

Conclusions: This study provides a high-quality reference transcriptome and reveals molecular mechanisms associated with the development of nutrients and taste components in P. juliae. These findings will enhance our understanding of the breeding and utilization of P. juliae as a vegetable.

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