基于HPLC指纹图谱与多元统计分析的太平猴魁产地判别方法
Origin discrimination of Taiping Houkui based on HPLC fingerprints and multivariate statistical analysis
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摘要: 以核心产地和非核心产地的太平猴魁为研究对象,通过优化高效液相色谱(HPLC)检测方法建立太平猴魁HPLC指纹图谱,并结合多元统计分析方法对不同产地太平猴魁样品进行鉴别分析。结果表明:按优化后的HPLC检测方法对核心产地10种太平猴魁样品进行定量分析,共鉴定出11个共有峰(GA、5-GC、GC、TB、EGC、Cat、EC、Caf、EGCG、GCG、ECG),且10种太平猴魁样品的相似度均在0.982以上;来自核心产地与非核心产地的太平猴魁样品在PCA得分图中按照产地聚集,实现了较好的分离;筛选出的6种生物标志物(EC、GC、Cat、TB、EGC、Caf)可作为区分太平猴魁是否来自核心产地的特征性成分。Abstract: Taiping Houkui from core and non-core producing areas was taken as the research object. The HPLC fingerprints of Taiping Houkui was established by optimizing high performance liquid chromatography (HPLC) detection methods, and the multivariate statistical methods were used to analyze Taiping Houkui from different producing areas. The results showed that according to the optimized HPLC detection method, the 10 kinds of Taiping Houkui samples from the core producing area were quantitatively analyzed, and 11 common peaks(GA、5-GC、GC、TB、EGC、Cat、EC、Caf、EGCG、GCG、ECG) were identified and well separated, and the similarity of 10 Taiping Houkui samples was above 0.982. Taiping Houkui samples from core and non-core producing areas were clustered together according to the origin in the PCA score chart. The 6 biomarkers (EC, GC, Cat, TB, EGC, Caf) screened out were characteristic components that could distinguish whether Taiping Houkui came from the core producing area.
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Key words:
- Taiping Houkui /
- HPLC /
- fringerprints /
- multivariate statistical analysis
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[1]
占辉斌.消费者地理标志产品忠诚度影响因素分析:以地理标志产品太平猴魁为例[J].东北农业大学学报(社会科学版), 2018, 16(1):34-41.
-
[2]
陆德彪, 苏祝成.我国地理标志(产品)保护现状与问题:以茶叶为例[J].中国茶叶, 2009, 31(4):21-23
, 36. -
[3]
刘玮.茶叶感官审评方法中存在的若干问题分析[J].福建茶叶, 2020, 42(6):28-29.
-
[4]
陈荣冰.论茶叶的品质感官审评[J].茶道, 2019(12):89-90.
-
[5]
张志峰, 李世海, 汤一明, 等.基于BP神经网络的堆积状不同品种茶叶识别研究[J].轻工学报, 2017, 32(1):103-108.
-
[6]
张俊杰, 郭晨, 彭姗姗, 等.7个福建茶树品种的遗传多样性分析及其分子指纹图谱构建[J].轻工学报, 2020, 35(3):19-27.
-
[7]
陈琦, 汪爻, 吴琼, 等.基于元素及近红外分析的产地鉴别技术[J].现代食品, 2020(3):165-171.
-
[8]
雷攀登, 黄建琴, 吴琼, 等.太平猴魁茶主要品质成分分析[J].中国茶叶加工, 2016(1):33-37, 45.
-
[9]
杨停, 雷攀登, 周汉琛, 等.顶空固相微萃取-气质联用结合主成分分析法对太平猴魁茶香气成分的研究[J].食品工业科技, 2017, 38(10):49-53
, 57. -
[10]
PENG L, SONG X H, SHI X G, et al.An improved HPLC method for simultaneous determination of phenolic compounds, purine alkaloids and theanine in Camellia species[J].Journal of Food Composition & Analysis, 2008, 21(7):559-563.
-
[11]
WANG C, ZHANG C X, SHAO C F, et al.Chemical fingerprint analysis for the quality evaluation of deepure instant Pu-erh tea by HPLC combined with chemometrics[J].Food Analytical Methods, 2016, 9(12):3298-3309.
-
[12]
WANG L Y, WEI K, CHENG H, et al.Geographical tracing of Xihu Longjing tea using high performance liquid chromatography[J].Food Chemistry, 2014, 146:98-103.
-
[13]
WANG Y X, LI Q, WANG Q, et al.Simultaneous determination of seven bioactive components in Oolong tea Camellia sinensis:Quality control by chemical composition and HPLC fingerprints[J].Journal of Agricultural and Food Chemistry, 2012, 60(1):256-260.
-
[14]
ALAERTS G, ERPS J V, PIETERS S, et al.Similarity analyses of chromatographic fingerprints as tools for identification and quality control of green tea[J].Journal of Chromatography B, 2012, 910:61-70.
-
[15]
WANG L, YAN T, YANG L P, et al.Monitoring the consistency quality and antioxidant activity of Da Hong Pao teas by HPLC fingerprinting[J].Journal of Chromatographic Science, 2017, 55(5):528-535.
-
[16]
刘艳芳, 王胜鹏.中国茶叶安全现状及产地溯源技术研究[J].湖北农业科学, 2014, 53(24):5913-5915
, 5930. -
[17]
CHEN L, WANG W W, ZHANG J Y, et al.Dual effects of ascorbic acid on the stability of EGCG by the oxidation product dehydroascorbic acid promoting the oxidation and inhibiting the hydrolysis pathway[J].Food Chemistry, 2021, 337:127639.
-
[18]
孙立丽, 王萌, 任晓亮.化学模式识别方法在中药质量控制研究中的应用进展[J].中草药, 2017, 48(20):4339-4345.
-
[19]
ANANINGSIH V K, SHARMA A, ZHOU W B.Green tea catechins during food processing and storage:A review on stability and detection[J].Food Research International, 2013, 50(2):469-479.
-
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