2025-12-01 中国科学院(CAS)
<関連情報>
- https://english.cas.cn/newsroom/research_news/life/202512/t20251202_1134351.shtml
- https://onlinelibrary.wiley.com/doi/10.1111/tpj.70591
植物lncRNAのエピジェネティック制御ランドスケープの構築 – 新しい専門プラットフォームPERlncDBを用いた探究 Constructing epigenetic regulatory landscapes of plant lncRNAs—an exploration utilizing the novel specialized platform PERlncDB
Yan Li, Wenjing Yang, Jiazhi Liu, Baolin Yao, Changning Liu
The Plant Journal Published: 25 November 2025
DOI:https://doi.org/10.1111/tpj.70591
SUMMARY
Long non-coding RNAs (lncRNAs), once overlooked as transcriptional byproducts, are now recognized for their crucial roles in plant growth, development, and stress responses, with increasing focus on their epigenetic regulation. However, studies investigating epigenomic signals to explore the functions of lncRNAs in plants remain relatively limited. This study collected a comprehensive dataset of over 160 000 high-quality lncRNAs from 19 representative plant species and integrated 6715 ChIP-seq, BS-seq, and RNA-seq datasets to analyze epigenomic patterns at lncRNA loci. Results showed elevated DNA methylation in lncRNA regions. The highest levels occurred in transposable element-associated lncRNAs. Additionally, activating histone modifications at lncRNA loci showed tissue specificity, with epigenetic preferences differed from those at protein-coding gene (PCG) loci. Differential site analysis in epigenetic mutants further highlighted the selective regulation of lncRNA loci by specific epigenetic factors. To facilitate research, we developed PERlncDB, a platform that provides species-specific lncRNA browsing, epigenetic annotation, cross-species conservation analysis, and visualization of epigenomic landscapes. Case studies on MARS and LINC-AP2 emphasized the platform’s utility. Conserved epigenetic mechanisms regulating lncRNAs across species, exemplified by a syntenic conserved MET1-regulated lncRNA pair in Arabidopsis and tomato, suggested the stability of regulatory mechanisms underlying lncRNA functions. This work provides critical insights and resources for understanding plant lncRNA epigenetic regulation.
