Profiling of the gene expression and alternative splicing landscapes of Eucalyptus grandis

生物 基因 基因表达 桉树 选择性拼接 基因表达谱 计算生物学 转录组 基因表达调控 RNA剪接 拟南芥 细胞生物学 遗传学 植物 核糖核酸 信使核糖核酸 突变体
作者
Chunjie Fan,Mingjie Lyu,Zeng Bingshan,Qiang He,Xiaoping Wang,Mengzhu Lu,Bobin Liu,Jun Liu,Eddi Esteban,Asher Pasha,Nicholas J. Provart,Huan Wang,Jin Zhang
出处
期刊:Plant Cell and Environment [Wiley]
卷期号:47 (4): 1363-1378 被引量:17
标识
DOI:10.1111/pce.14814
摘要

Eucalyptus is a widely planted hardwood tree species due to its fast growth, superior wood properties and adaptability. However, the post-transcriptional regulatory mechanisms controlling tissue development and stress responses in Eucalyptus remain poorly understood. In this study, we performed a comprehensive analysis of the gene expression profile and the alternative splicing (AS) landscape of E. grandis using strand-specific RNA-Seq, which encompassed 201 libraries including different organs, developmental stages, and environmental stresses. We identified 10 416 genes (33.49%) that underwent AS, and numerous differentially expressed and/or differential AS genes involved in critical biological processes, such as primary-to-secondary growth transition of stems, adventitious root formation, aging and responses to phosphorus- or boron-deficiency. Co-expression analysis of AS events and gene expression patterns highlighted the potential upstream regulatory role of AS events in multiple processes. Additionally, we highlighted the lignin biosynthetic pathway to showcase the potential regulatory functions of AS events in the KNAT3 and IRL3 genes within this pathway. Our high-quality expression atlas and AS landscape serve as valuable resources for unravelling the genetic control of woody plant development, long-term adaptation, and understanding transcriptional diversity in Eucalyptus. Researchers can conveniently access these resources through the interactive ePlant browser (https://bar.utoronto.ca/eplant_eucalyptus).
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