CAS Key Laboratory of Separation Science for Analytical Chemistry , Dalian Institute of Chemical Physics, Chinese Academy of Sciences , Dalian 116023 , China.
University of Chinese Academy of Sciences , Beijing 100049 , China.
Anal Chem. 2018 Dec 18;90(24):14321-14330. doi: 10.1021/acs.analchem.8b03654. Epub 2018 Dec 4.
Hydroxycinnamic acid amides (HCAAs), diversely distributed secondary metabolites in plants, play essential roles in plant growth and developmental processes. Most current approaches can be used to analyze a few known HCAAs in a given plant. A novel method for comprehensive detection of plant HCAAs is urgently needed. In this study, a deep annotation method of HCAAs was proposed on the basis of ultra-high-performance liquid chromatography-high-resolution mass spectrometry (UHPLC-HRMS) and its in silico database of HCAAs. To construct an in silico UHPLC-HRMS HCAAs database, a total of 846 HCAAs were generated from the most common phenolic acid and polyamine/aromatic monoamine substrates according to possible biosynthesis reactions, which represent the structures of plant-specialized HCAAs. The characteristic MS/MS fragmentation patterns of HCAAs were extracted from reference mixtures. Four quantitative structure-retention relationship (QSRR) models were developed to predict retention times of mono-trans-HCAAs (aromatic amines conjugates), mono-trans-HCAAs (aliphatic amines conjugates), bis-HCAAs, and tris-HCAAs. The developed method was applied for identifying HCAAs in seeds (maize, wheat, and rice), roots (rice), and leaves (rice and tobacco). A total of 79 HCAAs were detected: 42 of them were identified in these plants for the first time, and 20 of them have never been reported to exist in plants. The results showed that the developed method can be used to identify HCAAs in a plant without prior knowledge of HCAA distributions. To the best of our knowledge, it is the first UHPLC-HRMS database developed for effective deep annotation of HCAAs from nontargeted UHPLC-HRMS data. It is useful for the identification of novel HCAAs in plants.
羟基肉桂酰胺(HCAA)是植物中广泛分布的次生代谢物,在植物生长和发育过程中发挥着重要作用。目前大多数方法可用于分析特定植物中几种已知的 HCAA。因此,迫切需要一种新的方法来全面检测植物 HCAA。本研究在超高效液相色谱-高分辨质谱(UHPLC-HRMS)及其 HCAA 计算数据库的基础上,提出了一种 HCAA 的深度注释方法。为构建计算型 UHPLC-HRMS HCAA 数据库,根据可能的生物合成反应,从最常见的酚酸和聚胺/芳香单胺底物中总共生成了 846 种 HCAA,代表了植物特有的 HCAA 结构。从参考混合物中提取了 HCAA 的特征 MS/MS 裂解模式。开发了四个定量结构-保留关系(QSRR)模型来预测单反式-HCAA(芳香胺缀合物)、单反式-HCAA(脂肪胺缀合物)、双-HCAA 和三-HCAA 的保留时间。该方法应用于鉴定种子(玉米、小麦和水稻)、根(水稻)和叶(水稻和烟草)中的 HCAA。共检测到 79 种 HCAA:其中 42 种在这些植物中首次被鉴定,20 种在植物中从未报道过。结果表明,该方法可用于鉴定植物中的 HCAA,而无需事先了解 HCAA 的分布情况。据我们所知,这是第一个为从非靶向 UHPLC-HRMS 数据中有效深度注释 HCAA 而开发的 UHPLC-HRMS 数据库。它有助于鉴定植物中的新型 HCAA。
