Histological, Transcriptomic, and Functional Analyses Reveal the Role of Gibberellin in Bulbil Development in <i>Lilium lancifolium</i>

Histological, Transcriptomic, and Functional Analyses Reveal the Role of Gibberellin in Bulbil Development in <i>Lilium lancifolium</i>

Lily bulbils, advantageous axillary organs used for asexual reproduction, have an underexplored developmental mechanism. Gibberellins are known to participate in bulbil development, but the regulatory mechanisms remain unclear. In this study, exogenous gibberellin (GA<sub>3</sub>) signif...

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Main Authors: Shanshan Du, Mengdi Wang, Jiahui Liang, Wenqiang Pan, Qianzi Sang, Yanfang Ma, Mengzhu Jin, Mingfang Zhang, Xiuhai Zhang, Yunpeng Du
Format: Article
Language:English
Published: MDPI AG 2024-10-01
Series:Plants
Subjects:
<i>Lilium lancifolium</i>
bulbil development
gibberellin
transcriptome analysis
<i>LlGA20ox2</i>
Online Access:https://www.mdpi.com/2223-7747/13/21/2965
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Summary:Lily bulbils, advantageous axillary organs used for asexual reproduction, have an underexplored developmental mechanism. Gibberellins are known to participate in bulbil development, but the regulatory mechanisms remain unclear. In this study, exogenous gibberellin (GA<sub>3</sub>) significantly increased the bulbil length, width, and weight by raising the endogenous gibberellin levels and elongating the scale cells. Transcriptomic analysis identified <i>LlGA20ox2</i>, a key gibberellin biosynthesis gene, which was upregulated during bulbil development and significantly responsive to GA<sub>3</sub> treatment. Given the similarities in bulbil and bulblet development, we determined the roles of <i>LlGA20ox2</i> using a bulblet system. Silencing <i>LlGA20ox2</i> in bulblets inhibited development by reducing the cell length, while overexpression increased the bulblet length and width. In the gibberellin signaling pathway, we identified two key genes, <i>LlGID1C</i> and <i>LlCIGR2</i>. Silencing these genes resulted in phenotypes similar to <i>LlGA20ox2</i>, inhibiting bulblet development. Further transcriptomic analysis revealed that gibberellin-responsive genes were enriched in the glucuronate pathway, pentose phosphate pathway and galactose metabolism pathways. Most of these differentially expressed genes responded to gibberellin and were highly expressed in later stages of bulbil development, suggesting their involvement in gibberellin-regulated bulbil growth. In conclusion, we preliminarily explored the mechanisms of gibberellin regulation in bulbil development, offering significant commercial potential for new lily reproductive organs.
ISSN:2223-7747

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