Integrative Analysis of Curcuma kwangsiensis Reveals Markers for Distinguishing Rhizome, Radix, and Non‐Medicinal Parts via LDA‐Based Classification

化学 轨道轨道 根(腹足类) 色谱法 姜黄 根茎 质谱法 植物化学 代谢组学 传统医学 植物 生物化学 医学 生物
作者
Qing Yang,Jiansang Wulu,Min He,Ming Chen,Zichang Liang,Juan Li,Jing Li,Zhifeng Zhang,Jianguang Zhang
出处
期刊:Rapid Communications in Mass Spectrometry [Wiley]
卷期号:39 (23): e10105-e10105
标识
DOI:10.1002/rcm.10105
摘要

ABSTRACT Introduction Curcumae Rhizoma (Ezhu) and Curcumae Radix (Yujin) are both derived from Curcuma kwangsiensis (CK), an important species in the Zingiberaceae family. They have different clinical applications in traditional Chinese medicine (TCM): The rhizome is mainly used for antitumor treatments, whereas the radix is known for antidepressant and cholagogic effects, both officially listed in the Chinese Pharmacopoeia. However, non‐medicinal parts such as the aerial portions and fibrous roots are sometimes mixed in, leading to confusion in clinical formulation use. Objective This study aimed to analyze different parts of CK, including its rhizome (RHCK), radix (RACK), aerial parts (APCK), and fibrous root (FRCK) using inductively coupled plasma mass spectrometry (ICP‐MS), ultra‐high‐performance liquid chromatography‐quadrupole‐electrostatic field Orbitrap high‐resolution mass spectrometry (UPLC‐Q Exactive Orbitrap‐MS), and gas chromatography–mass spectrometry (GC‐MS). Methodology These mineral elements of different parts in CK were determined by using (ICP‐MS). The nonvolatile metabolites were achieved by UPLC‐Q Exactive Orbitrap‐MS, and the volatile metabolites were identified by GC‐MS. Statistical analysis, including principal component analysis (PCA) and orthogonal partial least‐squares discriminate analysis (OPLS‐DA) model, was used to classify different parts of CK based on mineral elements and metabolites. Furthermore, linear discriminant analysis (LDA) was utilized to effectively differentiate the different parts by analyzing the data. Results In total, 26 mineral elements, 738 nonvolatile metabolites, and 87 volatile metabolites were identified. Multivariate analysis revealed 14 mineral elements, 390 nonvolatile metabolites, and 42 volatile metabolites (VIP > 1) as potential markers. A LDA model effectively distinguished the four plant parts, achieving a classification accuracy of 95%. Conclusion These findings offer a practical strategy for accurately identifying and differentiating medicinal from non‐medicinal parts of CK, reducing misidentification in TCM formulations and enhancing clinical safety.
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