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鹿角蕨孢子形成生理学洞察:单片叶子内的代谢、激素和色素变化

Insight into the Sporulation Physiology of Elkhorn Fern: Metabolic, Hormonal, and Pigment Changes Within a Single Leaf of .

作者信息

Oliwa Jakub, Stawoska Iwona, Macioszek Violetta Katarzyna, Dziurka Michał, Rys Magdalena, Saja-Garbarz Diana, Maksymowicz Anna, Kornaś Andrzej, Skoczowski Andrzej

机构信息

Institute of Biology and Earth Sciences, University of the National Education Commission, Podchorążych 2, 30-084 Krakow, Poland.

Laboratory of Plant Physiology, Department of Biology and Plant Ecology, Faculty of Biology, University of Bialystok, 15-245 Bialystok, Poland.

出版信息

Int J Mol Sci. 2025 Aug 21;26(16):8084. doi: 10.3390/ijms26168084.

DOI:10.3390/ijms26168084
PMID:40869414
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12386787/
Abstract

is one of the most widely cultivated ornamental fern species worldwide and a valuable component of the biodiversity of pantropical forests. In addition to its photosynthetic function, the sporotrophophyll leaves of this species periodically develop a large, clearly demarcated sporangium at the leaf tips, enabling physiological and biochemical measurements both in the active sporulation part and in the non-sporulating leaf area. The aim of this study was to assess anatomical changes, determine thermal effects and the content of selected phytohormones, and analyze the spatial distribution of pigments in the sporophilic and trophophylic part of the same leaf during spore formation. The study utilized fluorescence microscopy, isothermal microcalorimetry, Raman mapping, and ultra-high-performance liquid chromatography coupled with a Triple Quad LC/MS analyzer. The results revealed significant physiological differences between the sporulating and non-sporulating leaf areas. For the first time, differences in thermogenesis within the two leaf regions accompanying sporulation and linked to the sporangium development stage have been demonstrated in ferns. Increases in gibberellins (GA3, GA4, and GA6), auxin (indole-3-butyric acid), (±)-cis, trans-abscisic acid, and abscisic acid glucose ester were observed in the sporophilic part of the leaf, as well as fluctuations in phytohormones in the trophophilic part, indicating internal metabolite relocation within the leaf. Raman analysis and 2D mapping revealed local lignin accumulation and fluctuations in carotenoid levels during spore maturation. The results of this study demonstrate physiological variation within a single leaf and the mechanisms accompanying sporulation, which provide a better understanding of fern adaptive strategies.

摘要

是全球种植最广泛的观赏蕨类植物之一,也是泛热带森林生物多样性的重要组成部分。除了其光合作用功能外,该物种的孢子叶在叶尖定期发育出一个大的、界限清晰的孢子囊,从而能够在活跃的孢子形成部分和非孢子形成叶区域进行生理和生化测量。本研究的目的是评估解剖学变化,确定热效应和选定植物激素的含量,并分析同一叶片在孢子形成过程中孢子叶和营养叶部分色素的空间分布。该研究采用了荧光显微镜、等温微量热法、拉曼映射以及超高效液相色谱与三重四极杆液相色谱/质谱分析仪联用的方法。结果显示,孢子形成叶区域和非孢子形成叶区域之间存在显著的生理差异。首次在蕨类植物中证明了两个叶区域内伴随孢子形成并与孢子囊发育阶段相关的产热差异。在叶的孢子叶部分观察到赤霉素(GA3、GA4和GA6)、生长素(吲哚-3-丁酸)、(±)-顺式、反式脱落酸和脱落酸葡萄糖酯增加,以及营养叶部分植物激素的波动,表明叶内代谢物的内部重新分布。拉曼分析和二维映射显示,在孢子成熟过程中局部木质素积累和类胡萝卜素水平波动。本研究结果证明了单叶内的生理变化以及伴随孢子形成的机制,这有助于更好地理解蕨类植物的适应策略。

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本文引用的文献

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'Out of Africa' origin of the pantropical staghorn fern genus Platycerium (Polypodiaceae) supported by plastid phylogenomics and biogeographical analysis."非洲起源"支持的泛热带鹿角蕨属(水龙骨科)的质体系统发育基因组学和生物地理学分析。
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