A systematic regulatory network related to bulbil formation in Lilium lancifolium based on metabolome and transcriptome analyses.

IF 5.4 3区材料科学 Q2 CHEMISTRY, PHYSICAL ACS Applied Energy Materials Pub Date : 2024-10-16 DOI:10.1186/s12870-024-05654-9

Ruiyi Ma, Yan Zhang, Jun Zhao, Yang Zheng, Li Xue, Jiajun Lei

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Abstract

Background: Lilium lancifolium is a special wild triploid species native to China and can produce abundant bulbils on its stem under natural conditions, which is very valuable to study bulbil organogenesis in plants. Although similar to the lateral and tillering principles, the molecular mechanism underlying bulbil formation has remained incompletely understood.

Results: The metabolome and transcriptome of L. lancifolium bulbils across four development stages were analyzed. The pairwise comparison of metabolomes across the four stages identified 17 differential hormones, predominantly auxin (IAA), cytokinin (CK), and jasmonic acid (JA). Short Time-series Expression Miner (STEM) trend analysis of differential genes revealed four significant trends across these stages. The KEGG enrichment analysis of the four clusters highlighted pathways, such as plant hormone signal transduction, which were speculated to play a crucial role in development stages. these pathways were speculated to play a crucial role in development stages. To explore the key differential expressed genes and transcription factors associated with bulbil occurrence, two periods were focused on: Ll_UN and Ll_DN, which represented the stages with and without bulbils, respectively. Through correlation analysis and qRT-PCR analysis, 11 candidate differentially expressed genes and 27 candidate transcription factors were selected. By spraying exogenous hormones to validate these candidates, LlbHLH128, LlTIFY10A, LlbHLH93, and LlMYB108, were identified as the key genes for L. lancifolium bulbils.

Conclusion: A regulatory network of L. lancifolium bulbil development was predicted. LlTIFY10A and LlbHLH93 might be involved in the JA and auxin signal transduction pathways, which jointly formed a regulatory network to affect the occurrence of L. lancifolium bulbil. This study not only provided more information about the differentially expressed genes and metabolites through transcriptome and metabolomics analyses, but also provided a clearer understanding of the effect of hormones on bulbil formation in lily.

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基于代谢组和转录组分析的百合花球茎形成系统调控网络

研究背景百合（Lilium lancifolium）是原产于中国的一种特殊的野生三倍体物种，在自然条件下其茎上能产生丰富的珠芽，对研究植物的珠芽器官发生具有重要价值。虽然与侧生和分蘖原理相似，但鳞茎形成的分子机制至今仍未完全清楚：结果：分析了L. lancifolium球茎四个发育阶段的代谢组和转录组。结果：分析了 Lancifolium 球茎在四个发育阶段的代谢组和转录组，通过对四个阶段的代谢组进行配对比较，发现了 17 种不同的激素，主要是辅助素（IAA）、细胞分裂素（CK）和茉莉酸（JA）。对差异基因的短时序列表达挖掘器（STEM）趋势分析表明，这些阶段的差异基因有四种显著趋势。对这四个群组进行的 KEGG 富集分析突出了植物激素信号转导等途径，推测这些途径在发育阶段发挥着关键作用。为了探索与球茎发生相关的关键差异表达基因和转录因子，重点研究了两个时期：Ll_UN和Ll_DN分别代表有鼓包和无鼓包阶段。通过相关分析和 qRT-PCR 分析，选出了 11 个候选差异表达基因和 27 个候选转录因子。通过喷洒外源激素验证这些候选基因，LlbHLH128、LlTIFY10A、LlbHLH93和LlMYB108被确定为L：结论：预测了 L. lancifolium 珠芽发育的调控网络。LlTIFY10A和LlbHLH93可能参与了JA和叶绿素信号转导途径，它们共同组成了影响Lancifolium球茎发生的调控网络。该研究不仅通过转录组和代谢组学分析提供了更多关于差异表达基因和代谢物的信息，而且更清楚地了解了激素对百合球茎形成的影响。

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来源期刊

ACS Applied Energy Materials Materials Science-Materials Chemistry

CiteScore

10.30

自引率

6.20%

发文量

1368

期刊介绍： ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.