Metabolite profiling of leaves of three Epilobium species

Q3 Agricultural and Biological Sciences Ecological genetics Pub Date : 2022-12-24 DOI:10.17816/ecogen114743
R. Puzanskiy, Pavel D. Smirnov, Sergey A. Vanisov, Maksim D. Dubrovskiy, A. Shavarda, M. Shishova, V. Yemelyanov
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引用次数: 2

Abstract

BACKGROUND: The ability of plants to adapt to oxygen deficiency is associated with the presence of various adaptations, many of which are mediated by significant changes of metabolism. These changes allow resistant wetland plants to grow even in oxygen-deficient environment. AIM: The aim of the study was to carry out metabolic profiling of the leaves of the wetland species Epilobium palustre and Epilobium hirsutum, and the mesophyte species Epilobium angustifolium in order to identify the most characteristic metabolome traits of hypoxia-resistant plants. MATERIALS AND METHODS: Metabolite profiling was performed by GC-MS. Statistical analysis of metabolomics data was processed using R 4.2.1 Funny-Looking Kid. RESULTS: The resulting profile included about 360 compounds. 70 of these were identified and 50 compounds were determined to a class. Sugars (64) were the most widely represented in the obtained profiles. 16 amino and 20 carboxylic acids, lipids and secondary compounds have been identified. Significant differences were revealed between the profiles of leaf metabolomes of mesophyte E. angustifolium and hydrophytes E. hirsutum and E. palustre. The mesophyte was characterized by high levels of sugars. The metabolomes of wetland Epilobium species practically did not differ from each other and were characterized by the accumulation of amino acids, including GABA shunt intermediates, dicarboxylic acids of the Krebs cycle, and metabolites of glycolysis and lactic acid fermentation, which reflects the stimulation of anaerobic respiration, nitrogen metabolism, and alternative pathways of NAD(P)H reoxidation in wetland plants. CONCLUSIONS: Traits of metabolic profiles detected in hydrophyte Epilobium species can be used to assess the degree of plant resistance to oxygen deficiency.
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三种叶毛属植物叶片代谢谱分析
背景:植物适应缺氧的能力与多种适应有关,其中许多是由代谢的显著变化介导的。这些变化使得抗氧湿地植物即使在缺氧的环境中也能生长。目的:通过对湿地植物叶毛叶(Epilobium palustre)、毛叶叶毛叶(Epilobium hirsutum)以及中生植物叶毛叶(Epilobium angustifolium)叶片进行代谢谱分析,以确定抗缺氧植物最具特征的代谢组性状。材料与方法:采用气相色谱-质谱法进行代谢物谱分析。使用r4.2.1 Funny-Looking Kid对代谢组学数据进行统计分析。结果:得到的图谱包括约360个化合物。其中70个化合物被鉴定,50个化合物被确定为一类。糖(64)在获得的谱中最广泛地代表。已鉴定出16种氨基酸和20种羧酸、脂质和二级化合物。叶生植物的叶片代谢组谱与水生植物的叶片代谢组谱存在显著差异。这种中生植物的特点是含糖量高。湿地毛菌的代谢组实际上并无差异,其特征是氨基酸的积累,包括GABA分流中间体、克雷布斯循环的二羧酸、糖酵解和乳酸发酵的代谢物,这反映了湿地植物对厌氧呼吸、氮代谢和NAD(P)H再氧化的替代途径的刺激。结论:水螅属植物代谢谱特征可用于评估植物抗缺氧程度。
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来源期刊
Ecological genetics
Ecological genetics Environmental Science-Ecology
CiteScore
0.90
自引率
0.00%
发文量
22
期刊介绍: The journal Ecological genetics is an international journal which accepts for consideration original manuscripts that reflect the results of field and experimental studies, and fundamental research of broad conceptual and/or comparative context corresponding to the profile of the Journal. Once a year, the editorial Board reviews and, if necessary, corrects the rules for authors and the journal rubrics.
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