Cloning, Expression, and Bioinformatics Analysis of the <i>AvFD1</i> Gene in <i>Amomum villosum</i> Lour

Cloning, Expression, and Bioinformatics Analysis of the <i>AvFD1</i> Gene in <i>Amomum villosum</i> Lour

As a perennial medicinal plant in the <i>Zingiber</i> genus, <i>Amomum villosum</i> Lour. faces agricultural challenges due to its prolonged vegetative and reproductive growth phases, which hinder efficient pollination and delay fruiting. To address this limitation, the prese...

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Main Authors: Duo Wang, Yating Zhu, Shuang Li, Hongyou Zhao, Chongnan Wang, Qianxia Li, Yanfang Wang, Chunyong Yang, Ge Li, Yanqian Wang, Lixia Zhang
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Biology
Subjects:
<i>Amomum villosum</i> Lour.
<i>flowering Locus D</i> gene
flowering regulatory gene
Online Access:https://www.mdpi.com/2079-7737/14/5/457
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Summary:As a perennial medicinal plant in the <i>Zingiber</i> genus, <i>Amomum villosum</i> Lour. faces agricultural challenges due to its prolonged vegetative and reproductive growth phases, which hinder efficient pollination and delay fruiting. To address this limitation, the present study aimed to identify the <i>FD</i> gene involved in regulating flowering in <i>A. villosum</i> to provide a basis for research on the molecular mechanisms of early fruiting cultivars. Based on the differentially expressed gene <i>AvFD1</i> obtained from the transcriptome database of early fruiting plants and controls, specific primers were designed for PCR to clone the full-length sequence of <i>AvFD1</i>. The characteristics of the cloned <i>AvFD1</i> gene were analyzed using online bioinformatics software. The expression profiles of <i>AvFD1</i> in various tissues and in 1- and 2-year bearing <i>A. villosum</i> varieties were investigated by quantitative real-time PCR. This study successfully cloned the <i>FD1</i> gene sequence of <i>A. villosum</i>, marking the first reported characterization of this gene in the species. Tissue-specific expression analysis revealed significantly elevated <i>AvFD1</i> expression levels in stolon tips and flower buds compared to tender leaves, suggesting its potential role as a positive regulator of flowering initiation. The obtained sequence establishes essential molecular data for subsequent functional validation of <i>AvFD1</i> in <i>A. villosum</i>.
ISSN:2079-7737

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