赤霉素( gibberellins,GAs)作为植物体内广泛存在的一类激素,可刺激植物叶和芽的生长,对植物的生长起着至关重要的调控作用。截至目前,已发现的 GAs高达136种之多。所有已知的 GAs均为二萜酸,具有相似的化学结构,都含有赤霉素烷骨架,即4个环,仅环上双键、羟基数目和位置不同。但由于GAs缺乏特定光学特性(紫外和荧光)和化学特性,同时在植物体内含量极低(一般为 ng/g,甚至为 pg/g 水平),常规的分析方法和检测技术难以实现对该类物质的定性定量分析。近年来相关研究人员一直致力于各种高效、快速、灵敏的 GAs分析新方法和新技术的研究。本文就 GAs的检测方法和分析技术进行综述,为更好地开展赤霉素类植物激素的研究提供参考。
Gibberellins( GAs)are a class of phytohormones that exert profound and diverse effects on plant growth and development,such as seed germination and leaf expansion. Up to now,136 members of GAs have been identified and recognized. All known GAs are diterpenoid acids with similar chemical structures,only double bonds,hydroxyl numbers and locations on gibberellin alkane skeleton are different. However,the content of GAs in plants is of ultra trace levels(usually at ng/g and even pg/g levels)with little ultraviolet(UV)absorption,no fluo-rescence and no distinguishing chemical characteristics. Moreover,the matrix of plant samples is complicated. Thus,quantification of GAs is always extremely difficult. Nowadays,the bottle necks for the study of GAs in plants are due to the lack of efficient sample preparation and sen-sitive detection techniques. This article reviews the analytical methods for determination of GAs in recent years,hoping to provide some references to develop new methods and techniques.
参考文献
| [1] | Bari, R;Jones, J.Role of plant hormones in plant defence responses[J].Plant Molecular Biology,20094(4):473-488. |
| [2] | Frigerio M;Alabadi D;Perez-Gomez J;Garcia-Carcel L;Phillips AL;Hedden P;Blazquez MA.Transcriptional regulation of gibberellin metabolism genes by auxin signaling in Arabidopsis[J].Plant physiology,20062(2):553-563. |
| [3] | Wu, Q.;Wu, D.;Duan, C.;Shen, Z.;Guan, Y..Hollow fiber-based liquid-liquid-liquid micro-extraction with osmosis: II. Application to quantification of endogenous gibberellins in rice plant[J].Journal of chromatography, A: Including electrophoresis and other separation methods,2012:17-23. |
| [4] | Jonsson P;Johansson AI;Gullberg J;Trygg J;A J;Grung B;Marklund S;Sjostrom M;Antti H;Moritz T.High-throughput data analysis for detecting and identifying differences between samples in GC/MS-based metabolomic analyses[J].Analytical chemistry,200517(17):5635-5642. |
| [5] | Nakayama M;Koshioka M;Matsui H;Ohara H;Mander LN;Leitch SK.Endogenous gibberellins in immature seeds of Prunus persica L.:identification of GA(118), GA(119), GA(120), GA(121), GA(122) and GA(126)[J].Phytochemistry,20015(5):749-758. |
| [6] | Taylor DR.;Crisp CM.;Blake PS..Identification of gibberellins in leaf exudates of strawberry (Fragaria x ananassa Duch.)[J].Plant Growth Regulation: An International Journal on Natural and Synthetic Regulators,20003(3):221-223. |
| [7] | Urbanová, T.;Tarkowská, D.;Novák, O.;Hedden, P.;Strnad, M..Analysis of gibberellins as free acids by ultra performance liquid chromatography-tandem mass spectrometry[J].Talanta: The International Journal of Pure and Applied Analytical Chemistry,2013:85-94. |
| [8] | Chen, M.-L.;Huang, Y.-Q.;Liu, J.-Q.;Yuan, B.-F.;Feng, Y.-Q..Highly sensitive profiling assay of acidic plant hormones using a novel mass probe by capillary electrophoresis-time of flight-mass spectrometry[J].Journal of chromatography, B. Analytical technologies in the biomedical and life sciences,201113/14(13/14):938-944. |
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