Transcriptome characterization and metabolite accumulation: novel insights into metabolite biosynthesis during Angiopteris fokiensis leaf development.

IF 2.5 Q3 GENETICS & HEREDITY

BMC genomic data Pub Date : 2025-09-29 DOI:10.1186/s12863-025-01366-7

Hongyu Chen, Ye Yang, Bo Wang, Ying Yu, Qingwen Sun

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Abstract

Background: Leafdevelopment represents a crucial stage in the plant life cycle, involving complex morphogenetic and physiological processes governed by evolving molecular mechanisms and metabolite profiles. The growth and maturation of Angiopteris fokiensis Hieron, a species used in traditional Chinese medicine, are characterized by fluctuating metabolite accumulation patterns regulated by largely unknown molecular pathways.

Results: Touncover these pathways, we employed next-generation sequencing to construct the A. fokiensis leaf transcriptome at two distinct developmental stages, allowing for a comprehensive analysis of gene expression dynamics while emphasizing the identification of genes that regulate leaf development and metabolite synthesis. The de novo assembly of high-quality sequencing reads generated 117,627 unigenes averaging 1,308 base pairs in length. FPKM analysis uncovered significant transcriptomic alterations during leaf development. Additionally, non-targeted metabolomics identified 1,494 distinct analytes, with lipids representing the most abundant metabolite class in both A. fokiensis samples. In the 'phenylalanine, tyrosine and tryptophan biosynthesis' pathway, two downregulated arogenate dehydrogenase (NADP+) genes (Unigene23378-S4 and Unigene47537-S2) in Stage1 correlated with reduced L-tyrosine levels. In the 'galactose metabolism' pathway, the upregulation of three beta-galactosidase genes (Unigene43641-S6, Unigene43648-S6, Unigene47074-S1) and the downregulation of one (Unigene28294-S2) corresponded to decreased alpha-lactose levels.

Conclusions: This study provides an in-depth examination of the dynamic transcriptomic and metabolomic changes occurring during A. fokiensis leaf development, revealing key regulatory networks and enhancing the annotation of theA. fokiensis genome. These findings lay a crucial groundwork for future research on this medicinal plant.

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转录组表征和代谢物积累：福山脉管叶片发育过程中代谢物生物合成的新见解。

背景：叶片发育是植物生命周期的一个关键阶段，涉及复杂的形态发生和生理过程，受不断进化的分子机制和代谢物谱的支配。福山脉管蕨（Angiopteris fokiensis Hieron）是一种中药药用植物，其生长和成熟过程中代谢产物的积累模式是由未知的分子途径调控的。结果：为了发现这些途径，我们利用新一代测序技术构建了两个不同发育阶段的福杉叶片转录组，从而全面分析了基因表达动态，同时重点鉴定了调节叶片发育和代谢物合成的基因。高质量测序reads的从头组装产生117,627个unigenes，平均长度为1,308个碱基对。FPKM分析揭示了叶片发育过程中显著的转录组变化。此外，非靶向代谢组学鉴定了1494种不同的分析物，其中脂类代表了两种福山猿猴样本中最丰富的代谢物类别。在“苯丙氨酸、酪氨酸和色氨酸生物合成”途径中，Stage1中两个基因（Unigene23378-S4和Unigene47537-S2）的下调与l -酪氨酸水平降低相关。在“半乳糖代谢”途径中，三个β -半乳糖苷酶基因（Unigene43641-S6、Unigene43648-S6、Unigene47074-S1）的上调和一个基因（Unigene28294-S2）的下调对应于α -乳糖水平的降低。结论：本研究深入研究了福杉叶片发育过程中发生的动态转录组学和代谢组学变化，揭示了关键的调控网络，增强了对theA的注释。fokiensis基因组。这些发现为该药用植物的进一步研究奠定了重要的基础。

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来源期刊

BMC genomic data

CiteScore

4.90

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0.00%

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