Pagter Majken, Yde Christian Clement, Kjær Katrine Heinsvig
Department of Chemistry and Bioscience, Aalborg University , Fredrik Bajers vej 7H, DK-9220, Aalborg East, Denmark.
Department of Food Science, Aarhus University , Kirstinebjergvej 10, DK-5792 Aarslev, Denmark.
J Agric Food Chem. 2017 Nov 22;65(46):10123-10130. doi: 10.1021/acs.jafc.7b03788. Epub 2017 Nov 7.
Global warming may modify the timing of dormancy release and spring growth of buds of temperate fruit crops. Environmental regulation of the activity-dormancy cycle in perennial plants remains poorly understood at the metabolic level. Especially, the fine-scale metabolic dynamics in the meristematic zone within buds has received little attention. In this work we performed metabolic profiling of intact floral primordia of Ribes nigrum isolated from buds differing in dormancy status using high-resolution magic angle spinning (HR-MAS) NMR. The technique proved useful in monitoring different groups of metabolites, e.g., carbohydrates and amino acids, in floral primordia and allowed metabolic separation of primordia from endo- and ecodormant buds. In addition, due to its nondestructive character, HR-MAS NMR may provide novel insights into cellular compartmentation of individual biomolecules that cannot be obtained using liquid-state NMR. Out results show that HR-MAS NMR may be an important method for metabolomics of intact plant structures.
全球变暖可能会改变温带水果作物芽休眠解除的时间和春季生长的时间。多年生植物活动-休眠周期的环境调控在代谢水平上仍知之甚少。特别是,芽分生组织区域内的精细代谢动态很少受到关注。在这项工作中,我们使用高分辨率魔角旋转(HR-MAS)核磁共振技术,对从处于不同休眠状态的芽中分离出的黑醋栗完整花原基进行了代谢谱分析。该技术被证明可用于监测花原基中不同种类的代谢物,如碳水化合物和氨基酸,并能从内休眠和生态休眠芽中对原基进行代谢分离。此外,由于其无损特性,HR-MAS核磁共振技术可能会为无法通过液态核磁共振获得的单个生物分子的细胞区室化提供新的见解。我们的结果表明,HR-MAS核磁共振技术可能是完整植物结构代谢组学的一种重要方法。
