Analysis of genes related to xylem cell wall development based on transcriptomics in Populus alba ‘Berolinensis’ tension wood

IF 3.4 2区农林科学 Q1 FORESTRY

Journal of Forestry Research Pub Date : 2024-04-02 DOI:10.1007/s11676-024-01709-7

Lin Feng, Youchao He, Xu Li, Meiqi Zhou, Chao Wang

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Abstract

Populus alba ‘Berolinensis’ is a fast-growing, high-yielding species with strong biotic and abiotic stress resistance, and widely planted for timber, shelter belts and aesthetic purposes. In this study, molecular development is explored and the important genes regulating xylem formation in P. alba ‘Berolinensis’ under artificial bending treatments was identified. Anatomical investigation indicated that tension wood (TW) was characterized by eccentric growth of xylem and was enriched in cellulose; the degree of lignification was lower than for normal wood (NW) and opposite wood (OW). RNA-Seq-based transcriptome analysis was performed using developing xylem from three wood types (TW, OW and NW). A large number of differentially expressed genes (DEGs) were screened and 4889 counted. In GO and KEGG enrichment results, genes involved in plant hormone signal transduction, phenylpropanoid biosynthesis, and cell wall and secondary cell wall biogenesis play major roles in xylem development under artificial bending. Eight expansin (PalEXP) genes were identified from the RNA-seq data; four were differentially expressed during tension wood formation. Phylogenetic analysis indicated that PalEXLB1 belongs to the EXPB subfamily and that the other PalEXPs are members of the EXPA subfamily. A transcriptional regulatory network construction showed 10 transcription factors located in the first and second layers upstream of EXP, including WRKY, ERF and bHLH. RT‒qPCR analysis in leaves, stems and roots combined with transcriptome analysis suggests that PalEXPA2, PalEXPA4 and PalEXPA15 play significant regulatory roles in cell wall formation during tension wood development. The candidate genes involved in xylem cell wall development during tension wood formation marks an important step toward identifying the molecular regulatory mechanism of xylem development and wood property improvement in P. alba ‘Berolinensis’.

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基于转录组学分析白杨'Berolinensis'张力木木质部细胞壁发育相关基因

白杨（Populus alba 'Berolinensis'）是一种快速生长的高产树种，具有很强的抗生物和非生物胁迫能力，被广泛种植用于木材、防护林带和美观用途。本研究探索了人工弯曲处理下白桦树木质部形成的分子发育过程，并确定了调控木质部形成的重要基因。解剖学调查表明，张力木（TW）的木质部偏心生长，富含纤维素；木质化程度低于正常木（NW）和对生木（OW）。利用三种木材类型（TW、OW 和 NW）的发育木质部进行了基于 RNA-Seq 的转录组分析。筛选出了大量差异表达基因（DEGs），共计 4889 个。在 GO 和 KEGG 富集结果中，参与植物激素信号转导、苯丙类生物合成、细胞壁和次生细胞壁生物生成的基因在人工弯曲条件下木质部的发育过程中发挥着重要作用。从 RNA-seq 数据中发现了 8 个扩张素（PalEXP）基因，其中 4 个基因在张力木形成过程中有差异表达。系统进化分析表明，PalEXLB1属于EXPB亚家族，其他PalEXPs属于EXPA亚家族。转录调控网络构建显示，有10个转录因子位于EXP上游的第一层和第二层，包括WRKY、ERF和bHLH。叶、茎和根的 RT-qPCR 分析以及转录组分析表明，PalEXPA2、PalEXPA4 和 PalEXPA15 在紧张木质部发育过程中的细胞壁形成过程中起着重要的调控作用。在张力木形成过程中参与木质部细胞壁发育的候选基因标志着在确定白桦'Berolinensis'木质部发育和木材性质改良的分子调控机制方面迈出了重要的一步。

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来源期刊

Journal of Forestry Research FORESTRY-

CiteScore

7.30

自引率

3.30%

发文量

2538

期刊介绍： The Journal of Forestry Research (JFR), founded in 1990, is a peer-reviewed quarterly journal in English. JFR has rapidly emerged as an international journal published by Northeast Forestry University and Ecological Society of China in collaboration with Springer Verlag. The journal publishes scientific articles related to forestry for a broad range of international scientists, forest managers and practitioners.The scope of the journal covers the following five thematic categories and 20 subjects: Basic Science of Forestry, Forest biometrics, Forest soils, Forest hydrology, Tree physiology, Forest biomass, carbon, and bioenergy, Forest biotechnology and molecular biology, Forest Ecology, Forest ecology, Forest ecological services, Restoration ecology, Forest adaptation to climate change, Wildlife ecology and management, Silviculture and Forest Management, Forest genetics and tree breeding, Silviculture, Forest RS, GIS, and modeling, Forest management, Forest Protection, Forest entomology and pathology, Forest fire, Forest resources conservation, Forest health monitoring and assessment, Wood Science and Technology, Wood Science and Technology.