Multi-omics analyses reveal the mechanisms underlying the responses of Casuarina equisetifolia ssp. incana to seawater atomization and encroachment stress

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL ACS Applied Energy Materials Pub Date : 2024-09-12 DOI:10.1186/s12870-024-05561-z
Shike Zhang, Guobing Wang, Weiwei Yu, Long Wei, Chao Gao, Di Li, Lili Guo, Jianbo Yang, Shuguang Jian, Nan Liu
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Abstract

Casuarina equisetifolia trees are used as windbreaks in subtropical and tropical coastal zones, while C. equisetifolia windbreak forests can be degraded by seawater atomization (SA) and seawater encroachment (SE). To investigate the mechanisms underlying the response of C. equisetifolia to SA and SE stress, the transcriptome and metabolome of C. equisetifolia seedlings treated with control, SA, and SE treatments were analyzed. We identified 737, 3232, 3138, and 3899 differentially expressed genes (SA and SE for 2 and 24 h), and 46, 66, 62, and 65 differentially accumulated metabolites (SA and SE for 12 and 24 h). The Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analysis showed that SA and SE stress significantly altered the expression of genes related to plant hormone signal transduction, plant–pathogen interaction, and starch and sucrose metabolism pathways. The accumulation of metabolites associated with the biosynthetic pathways of phenylpropanoid and amino acids, as well as starch and sucrose metabolism, and glycolysis/gluconeogenesis were significantly altered in C. equisetifolia subjected to SA and SE stress. In conclusion, C. equisetifolia responds to SA and SE stress by regulating plant hormone signal transduction, plant–pathogen interaction, biosynthesis of phenylpropanoid and amino acids, starch and sucrose metabolism, and glycolysis/gluconeogenesis pathways. Compared with SA stress, C. equisetifolia had a stronger perception and response to SE stress, which required more genes and metabolites to be regulated. This study enhances our understandings of how C. equisetifolia responds to two types of seawater stresses at transcriptional and metabolic levels. It also offers a theoretical framework for effective coastal vegetation management in tropical and subtropical regions.
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多组学分析揭示了马尾松(Casuarina equisetifolia ssp. incana)对海水雾化和侵蚀胁迫的响应机制
马尾松在亚热带和热带沿海地区被用作防风林,而海水雾化(SA)和海水侵蚀(SE)会使马尾松防风林退化。为了研究马尾松(C. equisetifolia)对SA和SE胁迫的响应机制,我们分析了经对照、SA和SE处理的马尾松幼苗的转录组和代谢组。我们发现了737、3232、3138和3899个差异表达基因(SA和SE处理2小时和24小时),以及46、66、62和65种差异积累代谢物(SA和SE处理12小时和24小时)。京都基因组百科全书(KEGG)富集分析表明,SA和SE胁迫显著改变了植物激素信号转导、植物与病原体相互作用以及淀粉和蔗糖代谢途径相关基因的表达。受SA和SE胁迫的马齿苋与苯丙氨酸和氨基酸的生物合成途径、淀粉和蔗糖代谢以及糖酵解/糖酮生成有关的代谢物的积累均发生了显著变化。总之,马齿苋通过调节植物激素信号转导、植物与病原物相互作用、苯丙酮和氨基酸的生物合成、淀粉和蔗糖代谢以及糖酵解/糖酮生成途径来应对 SA 和 SE 胁迫。与SA胁迫相比,C. equisetifolia对SE胁迫的感知和响应更强,需要调控更多的基因和代谢产物。这项研究加深了我们对马齿苋如何在转录和代谢水平上应对两种海水胁迫的理解。它还为热带和亚热带地区有效的沿海植被管理提供了一个理论框架。
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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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