# Transcriptomic Analysis Provides Insights into Flowering in Precocious-Fruiting Amomum villosum Lour

**Authors:** Yating Zhu, Shuang Li, Hongyou Zhao, Qianxia Li, Yanfang Wang, Chunyong Yang, Ge Li, Wenlin Zhang, Zhibin Guan, Lin Xiao, Yanqian Wang, Lixia Zhang

PMC · DOI: 10.3390/plants15020198 · 2026-01-08

## TL;DR

This study uses transcriptomic analysis to explore the flowering mechanism in precocious-fruiting Amomum villosum, identifying key genes and pathways involved in its early fruiting process.

## Contribution

The study provides novel insights into the molecular mechanisms of flowering in precocious-fruiting A. villosum through comprehensive transcriptomic profiling.

## Key findings

- 3061 differentially expressed genes were identified, enriched in processes related to development and reproduction.
- Alternative splicing events were analyzed, with skipped exons being the most common type.
- 43 key differentially expressed genes were predicted and validated using RT-qPCR.

## Abstract

Precocious-fruiting Amomum villosum Lour. is characterized by early fruit set, rapid yield formation, and shortened economic return cycles, indicating strong cultivation potential. However, the molecular mechanisms underlying its flowering transition remain unclear. To elucidate the flowering mechanism of A. villosum, we used the Illumina NovaSeq X Plus platform to compare gene expression profiles in three tissues (Rhizomes, R; Stems, S; Leaves, L) during the vegetative stage and three tissues (Rhizomes and Inflorescences, R&I; Stems, S; Leaves, L) during the flowering stage of individual plants: VS-R vs. FS-R&I, VS-S vs. FS-S, and VS-L vs. FS-L. We obtained 52.5 Gb clean data and 789 million reads, and identified 2963 novel genes. The 3061 differentially expressed genes (DEGs, FDR ≤ 0.05 and |log2FC| ≥ 1) identified in the three comparison groups included six overlapping genes. The DEGs were enriched primarily in GO terms related to cellular process, metabolic process, binding, catalytic activity, and cellular anatomical entity, as well as multiple terms associated with development and reproduction. KEGG enrichment analysis revealed enrichment primarily in metabolic pathways, including global and overview maps, energy metabolism, and carbohydrate metabolism. Moreover, the most significantly enriched core pathways included metabolic pathways, photosynthesis, and carbon assimilation. Among all alternative splicing (AS) events, skipped exons (SEs) accounted for the largest proportion (59.5%), followed by retained introns (RI, 19.4%), alternative 3′ splice sites (A3SS, 10.7%), alternative 5′ splice sites (A5SS, 6.8%), and mutually exclusive exons (MXE, 3.6%). A preliminary set of 43 key DEGs was predicted, displaying spatiotemporal expression specificity and strong interactions among certain genes. Nine genes were further selected for RT-qPCR validation to confirm the reliability of the RNA-seq results. This study established a foundational framework for elucidating the flowering mechanism of precocious-fruiting A. villosum.

## Full-text entities

- **Chemicals:** carbohydrate (MESH:D002241), carbon (MESH:D002244)
- **Species:** Wurfbainia villosa (sha ren, species) [taxon 199627]

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12845154/full.md

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Source: https://tomesphere.com/paper/PMC12845154