全球转录组分析揭示了杉木(Cunninghamia lanceolata)自交系中与幼苗提前生长性状相关的基因

IF 1.4 4区 农林科学 Q2 FORESTRY
Houyin Deng, Dehuo Hu, Ruping Wei, Shu-mo Yan, Runhui Wang, Huiquan Zheng
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引用次数: 2

摘要

杉木(Cunninghamia lanceolata, Lamb.))是中国南方主要的针叶林树种。在本研究中,我们旨在通过全局转录组分析(RNA-Seq)捕捉该物种中罕见的高级自交现象,并阐明其潜在的分子机制,特别是中枢基因调控的网络和途径。自花授粉试验揭示了亲本间自花效应的广泛差异。亲本cx569在苗期产生了一个生长性能最好的自交家族。基于生长的极晚期(AD) (n=3)和抑郁(DE)变体(n=3);不同类型)然后进行比较RNA-Seq。转录组数据显示,每个对照组(AD与DE)有超过5000个差异表达基因(deg)。加权基因共表达网络分析(WGCNA)进一步确定了每个对照组中与生长性状显著相关的80多个重要基因。随后的富集分析表明,鉴定的deg主要属于6种类型,包括木质部代谢相关基因、糖和能量代谢相关基因、植物激素信号转导相关基因、胁迫应答相关基因、细胞色素相关基因和转录因子相关基因。在AD和DE变异之间共鉴定出ERF071、MYB-relate 305、WRKY6、WRKY31、PER3、LAC4、CESA8、CESA9、GID1和PR1基因所代表的10个枢纽基因。这些基因在AD和DE突变体之间的表达模式存在较大差异,尤其是转录因子ERF071基因在AD幼苗中的转录水平较低,活性仅为DE的4.45%。而植物激素信号转导GID1基因在AD中较DE显著上调约20倍,木质素生物合成相关的PER3、CESA9和LAC4基因在AD幼苗中以上调模式平行表达的倍增变化达到10-15倍。本研究揭示的中心基因连锁相互作用网络和途径可能是杉木苗期罕见的自交现象的原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Global transcriptome analysis reveals genes associated with seedling advance growth traits in a selfed family of Chinese fir (Cunninghamia lanceolata)
Chinese fir (Cunninghamia lanceolata (Lamb.) Hook.) is a major timber conifer species in southern China. In this study, we aimed to capture the rarely advanced phenomenon for selfing in this species and illustrated the underlying molecular mechanism, especially the hub gene-regulated networks and path­ways, by global transcriptome analysis assays (RNA-Seq). Self-pollination trials revealed a wide variation of selfing effects among parents. Parent cx569 produced a selfed family with the best growth performance at the seedling stage. The growth-based extremely advanced (AD) (n=3) and depressed (DE) variants (n=3; different types) were then subjected to comparative RNA-Seq. The transcriptome data revealed more than 5000 differentially expressed genes (DEGs) for each comparison group (AD versus DE). Weighted gene co-expression network analysis (WGCNA) further identified more than 80 important DEGs that were significantly associated with growth traits in each comparison group. A subsequent enrichment analy­sis showed that the identified DEGs belonged to six main types, including xylem metabolism-related, sugar and energy metabolism-related, plant hormone signal transduction-related, stress response-related, cytochrome-related, and transcription factor genes. Ten hub genes represented by the ERF071, MYB-relate 305, WRKY6, WRKY31, PER3, LAC4, CESA8, CESA9, GID1, and PR1 genes were co-identified between AD and DE variants. These genes exhibited rather different expression patterns between AD and DE variants, especially of the transcription factor ERF071 gene that presented a low transcript level in the AD seedlings with only 4.45% activity compared to DE's. While, the plant hormone signal transduction GID1 gene was significantly upregulated in AD by about 20-fold when compared to DE's, and fold change of the lignin biosynthesis-related PER3, CESA9 and LAC4 gene expression parallel reached to 10–15 times in an upreg­ulation pattern in AD seedlings. The set of hub gene-linked interaction networks and pathways revealed in this study may be responsible for the rarely advanced phenomenon for selfing at the seedling stage in Chinese fir.
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来源期刊
Dendrobiology
Dendrobiology 农林科学-林学
CiteScore
2.20
自引率
11.10%
发文量
17
审稿时长
>12 weeks
期刊介绍: Dendrobiology publishes original research articles and review articles related to the biology of trees and shrubs.
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