Integrated transcriptomic and metabolomic analysis reveals the effects of polyploidization on the lignin content and metabolic pathway in Eucalyptus.

Tingting Xu, Zhao Liu, Dingju Zhan, Zhenwu Pang, Shuwen Zhang, Chenhe Li, Xiangyang Kang, Jun Yang
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Abstract

Background: Lignin is a major restriction factor for the industrial production of biomass resources, such as pulp and bioenergy. Eucalyptus is one of the most important sources of pulp and bioenergy. After polyploidization, the lignin content of forest trees is generally reduced, which is considered a beneficial genetic improvement. However, the differences in the lignin content between triploid and diploid Eucalyptus and the underlying regulatory mechanism are still unclear.

Results: We conducted a comprehensive analysis at the phenotypic, transcriptional and metabolite levels between Eucalyptus urophylla triploids and diploids to reveal the effects of polyploidization on the lignin content and lignin metabolic pathway. The results showed that the lignin content of Eucalyptus urophylla triploid stems was significantly lower than that of diploids. Lignin-related metabolites were differentially accumulated between triploids and diploids, among which coniferaldehyde, p-coumaryl alcohol, sinapaldehyde and coniferyl alcohol had significant positive correlations with lignin content, indicating that they might be primarily contributing metabolites. Most lignin biosynthetic genes were significantly downregulated, among which 11 genes were significantly positively correlated with the lignin content and above metabolites. Furthermore, we constructed a co-expression network between lignin biosynthetic genes and transcription factors based on weighted gene co-expression network analysis. The network identified some putative orthologues of secondary cell wall (SCW)-related transcription factors, among which MYB52, MYB42, NAC076, and LBD15 were significantly downregulated in Eucalyptus urophylla triploids. In addition, potential important transcription factors, including HSL1, BEE3, HHO3, and NAC046, also had high degrees of connectivity and high edge weights with lignin biosynthetic genes, indicating that they might also be involved in the variation of lignin accumulation between triploid and diploid Eucalyptus urophylla.

Conclusions: The results demonstrated that some lignin-related metabolites, lignin biosynthetic genes and transcription factors in Eucalyptus urophylla triploids may be relatively sensitive in response to the polyploidization effect, significantly changing their expression levels, which ultimately correlated with the varied lignin content. The analysis of the underlying formation mechanism could provide beneficial information for the development and utilization of polyploid biomass resources, which will be also valuable for genetic improvement in other bioenergy plants.

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综合转录组学和代谢组学分析揭示了多倍体化对桉树木质素含量和代谢途径的影响。
背景:木质素是纸浆和生物能源等生物质资源工业化生产的主要制约因素。桉树是最重要的纸浆和生物能源来源之一。多倍体化后,树木的木质素含量普遍降低,这被认为是有益的遗传改良。然而,三倍体和二倍体桉树木质素含量的差异及其调控机制尚不清楚。结果:对尾叶桉三倍体和二倍体的表型、转录和代谢水平进行了综合分析,揭示了多倍体化对木质素含量和木质素代谢途径的影响。结果表明,尾叶桉三倍体茎中木质素含量显著低于二倍体。木质素相关代谢物在三倍体和二倍体间的积累存在差异,其中松柏醛、对香豆醇、樟脑醛和松柏醇与木质素含量呈显著正相关,说明它们可能是木质素的主要代谢物。大部分木质素生物合成基因显著下调,其中11个基因与木质素含量及以上代谢产物显著正相关。此外,基于加权基因共表达网络分析,构建了木质素生物合成基因与转录因子的共表达网络。该网络发现了一些推测的次级细胞壁相关转录因子同源物,其中MYB52、MYB42、NAC076和LBD15在尾叶桉三倍体中显著下调。此外,潜在的重要转录因子HSL1、BEE3、HHO3和NAC046也与木质素生物合成基因具有高度的连连度和高边权,表明它们也可能参与了三倍体和二倍体尾叶桉木质素积累的差异。结论:研究结果表明,尾叶桉三倍体中部分木质素相关代谢产物、木质素生物合成基因和转录因子可能对多倍体效应反应相对敏感,表达水平发生显著变化,最终与木质素含量的变化有关。对多倍体生物量资源形成机制的分析可以为多倍体生物量资源的开发利用提供有益的信息,对其他生物能源植物的遗传改良也有价值。
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