Integrative multi-omics analyses of date palm (Phoenix dactylifera) roots and leaves reveal how the halophyte land plant copes with sea water.

IF 3.9 2区 生物学 Q1 GENETICS & HEREDITY
Plant Genome Pub Date : 2024-03-01 Epub Date: 2023-07-30 DOI:10.1002/tpg2.20372
Heike M Mueller, Bastian L Franzisky, Maxim Messerer, Baoguo Du, Thomas Lux, Philip J White, Sebastien Christian Carpentier, Jana Barbro Winkler, Joerg-Peter Schnitzler, Hamed A El-Serehy, Khaled A S Al-Rasheid, Naif Al-Harbi, Saleh Alfarraj, Jörg Kudla, Jaakko Kangasjärvi, Michael Reichelt, Axel Mithöfer, Klaus F X Mayer, Heinz Rennenberg, Peter Ache, Rainer Hedrich, Christoph-Martin Geilfus
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引用次数: 0

Abstract

Date palm (Phoenix dactylifera L.) is able to grow and complete its life cycle while being rooted in highly saline soils. Which of the many well-known salt-tolerance strategies are combined to fine-tune this remarkable resilience is unknown. The precise location, whether in the shoot or the root, where these strategies are employed remains uncertain, leaving us unaware of how the various known salt-tolerance mechanisms are integrated to fine-tune this remarkable resilience. To address this shortcoming, we exposed date palm to a salt stress dose equivalent to seawater for up to 4 weeks and applied integrative multi-omics analyses followed by targeted metabolomics, hormone, and ion analyses. Integration of proteomic into transcriptomic data allowed a view beyond simple correlation, revealing a remarkably high degree of convergence between gene expression and protein abundance. This sheds a clear light on the acclimatization mechanisms employed, which depend on reprogramming of protein biosynthesis. For growth in highly saline habitats, date palm effectively combines various salt-tolerance mechanisms found in both halophytes and glycophytes: "avoidance" by efficient sodium and chloride exclusion at the roots, and "acclimation" by osmotic adjustment, reactive oxygen species scavenging in leaves, and remodeling of the ribosome-associated proteome in salt-exposed root cells. Combined efficiently as in P. dactylifera L., these sets of mechanisms seem to explain the palm's excellent salt stress tolerance.

对枣椰树(Phoenix dactylifera)根系和叶片的多组学综合分析揭示了这种卤素陆生植物如何应对海水。
枣椰树(Phoenix dactylifera L.)能够扎根于高盐碱土壤中生长并完成其生命周期。目前还不清楚在众多众所周知的耐盐策略中,哪些策略被结合起来,以微调这种非凡的恢复力。这些策略被运用的确切位置,无论是在芽中还是在根中,仍然是不确定的,这使我们不知道各种已知的耐盐机制是如何被整合起来以微调这种非凡的恢复力的。为了弥补这一不足,我们将枣椰树暴露在相当于海水的盐胁迫剂量下长达4周,并应用综合多组学分析,随后进行了有针对性的代谢组学、激素和离子分析。将蛋白质组数据与转录组数据整合后,我们发现基因表达与蛋白质丰度之间存在着显著的高度趋同性,从而超越了简单的相关性。这清楚地揭示了所采用的适应机制,这种机制取决于蛋白质生物合成的重新编程。为了在高盐度环境中生长,枣椰树有效地结合了盐生植物和糖生植物的各种耐盐机制:"避免 "是指根部有效地排除钠和氯,"适应 "是指渗透调节、叶片中活性氧的清除以及盐暴露根细胞中核糖体相关蛋白质组的重塑。与 P. dactylifera L.一样,这些机制有效地结合在一起,似乎就能解释棕榈树出色的耐盐胁迫能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Plant Genome
Plant Genome PLANT SCIENCES-GENETICS & HEREDITY
CiteScore
6.00
自引率
4.80%
发文量
93
审稿时长
>12 weeks
期刊介绍: The Plant Genome publishes original research investigating all aspects of plant genomics. Technical breakthroughs reporting improvements in the efficiency and speed of acquiring and interpreting plant genomics data are welcome. The editorial board gives preference to novel reports that use innovative genomic applications that advance our understanding of plant biology that may have applications to crop improvement. The journal also publishes invited review articles and perspectives that offer insight and commentary on recent advances in genomics and their potential for agronomic improvement.
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