高效液相色谱法测定茶叶中茶多酚

应用高效液相色谱法测定了茶叶,特别是绿茶中的8种多酚,包括儿荼素(C)、表没食子儿茶素(EGC)、没食子儿荼素(GC)、表儿茶素(EC)、表没食子儿茶素没食子酸酯(EGCG)、没食子儿荼素没食子酸酯(GCG)、表儿茶素没食子酸酯(ECG)及儿茶素没食子酸酯(CG).在C18>反相柱(250 min×4.6 mm,5 μm)上进行分离,用不同体积比混合的流动相A及流动相B的混合液作梯度淋洗,流速为1.0 mL·min-1,柱温为40℃,在280 nm波长处进行紫外检测.上述8组分在0.004～4.0 g·L-范围内呈线性关系,方法的检出限在0.6～2.6 mg·L-1范围内,平均回收率为83%.     

高效液相色谱法测定绿茶中茶多酚及咖啡因

应用高效液相色谱法测定绿茶中没食子酸(GA)、咖啡因(CAF)及5种儿茶素类化合物,包括儿茶素(C)、表儿茶素(EC)、表没食子儿茶素没食子酸酯(EGCG)、表儿茶素没食子酸酯(ECG)、没食子儿茶素没食子酸酯(GCG)。对国家标准方法GB/T 8313-2008中流动相组成进行了调整,用0.5%乙酸代替2%的乙酸,在AT.Lichrom ODS色谱柱(4.6mm×250mm,5μm)上进行分离,流量为1.0mL.min-1,在波长278nm处进行紫外检测。7种组分在40min内达到完全分离。7种组分的质量浓度分别在一定的范围内与其峰面积呈线性关系。方法用于绿茶的分析,7种组分的加标回收率在96.0%～102.8%之间。     

高效液相色谱-串联质谱法检测红葡萄酒中功效成分

建立了高效液相色谱-串联质谱法快速测定葡萄酒中白藜芦醇、黄酮类、多酚类功效成分的分析方法。葡萄酒样品直接稀释后进样,用C18柱进行分离,以乙腈-0.1%(体积分数)甲酸水溶液为流动相进行梯度洗脱,通过多反应监测(MRM)模式进行检测。13种功效成分在各自线性范围内呈良好的线性关系,相关系数均大于0.99。除表没食子儿茶素、没食子儿茶素、儿茶素没食子酸酯、花旗松素的检出限为1.0、1.0、3.0、3.0μg/L外,其他9种化合物的检出限均小于1.0μg/L。回收率为80.9%~112.3%,相对标准偏差小于10%。该方法快速、准确、灵敏度高,适用于葡萄酒中功效成分的快速分析。对实际样品的检测表明,所测葡萄酒样品中均含有儿茶素、表儿茶素、表没食子儿茶素、没食子儿茶素、表儿茶素没食子酸酯/儿茶素没食子酸酯、白藜芦醇、大豆黄素等功效成分,不同品种葡萄酒中这些功效成分含量差异显著。     

高效液相色谱/质谱分析茶树老叶中儿茶素

1　引　　言儿茶素是一类能改进血管渗透性能 ,增强心肌 ,降低血压 ,并具有抗脂肪肝、抗癌和Ｖｐ样作用的天然活性物质 ,采用高效液相色谱 质谱 (ＬＣ ＭＳ)联用法分析儿茶素至今未见报道。本文采用ＬＣ ＭＳ联用法 ,优化了色谱条件 ,同时分离了茶树老叶中 7种儿茶素 ,并以ＨＰＬＣ与ＬＣ ＥＳＩ ＭＳ联合定性 ,鉴定出 7种儿茶素分别为表没食子儿茶素 (ＥＧＣ)、没食子儿茶素 (ＧＣ)、表没食子儿茶素 3 没食子酸酯 (ＥＧＣＧ)、表儿茶素 (ＥＣ)、没食子儿茶素 3 没食子酸酯 (ＧＣＧ)、表儿茶素 3 没食子酸酯 (ＥＣＧ)、儿茶素 3 没食子…     

超高效液相色谱－四极杆－静电场轨道阱高分辨质谱法鉴定白茶和普洱生茶中的化学成分

基于超高效液相色谱－四极杆－静电场轨道阱高分辨质谱（UHPLC－Q－Orbitrap－HRMS）技术,建立了白茶和普洱生茶中化学成分的分析方法。白茶和普洱生茶提取液经Waters ACQUITY UPLC BEH C18柱（150 mm × 2.1 mm,1.7 μm）分离,进入四极杆－静电场轨道阱高分辨质谱,在电喷雾正、负电离模式下同时进行全扫描以及数据依赖型二级质谱扫描并采集数据信息。通过一级质谱分析和二级碎片的精确质量数信息及在线数据库匹配,在白茶和普洱生茶样本中共鉴定出64种活性成分、32种共有活性成分。在白茶和普洱生茶样本中各单独鉴定出16种活性成分,主要为氨基酸类、有机酸类、黄酮类、香豆素类、生物碱类以及核苷类等六大类别化合物。采用归一化法确定已检出的64种活性成分的相对含量。该方法可系统分析茶叶中的有效成分,为进一步研究白茶和普洱生茶的保健机理提供了科学依据,也可为茶叶质量安全监管提供技术支撑。     

高效液相色谱-质谱-二苯基三硝基苯肼在线筛选与鉴别茶叶中抗氧化活性成分

将基于在线高效液相色谱-二苯基三硝基苯肼(HPLC-DPPH)快速筛选自由基清除剂的方法与电喷雾飞行时间质谱(ESI-TOF/MS)结合,建立了茶叶粗提物中抗氧化活性成分在线筛选与鉴别的方法.本方法是在HPLC色谱柱分离后进行分流,一路进入ESI-TOF/MS用于各化合物的快速鉴别,另一路流出液与稳定的自由基DPPH混合,实现在线筛选自由基清除剂的作用.本方法用于茶水中抗氧化成分的快速筛选与鉴别,筛选出11个具有明显DPPH自由基清除作用的化合物,通过ESI-TOF/MS在线分析获得的质谱信息,结合相关文献和数据库,实现了各化合物的快速鉴别.11个化合物分别为茶氨酸、Theogallin、没食子儿茶素、茶碱、色氨酸、表没食子儿茶素、表没食子儿茶素没食子酸酯、表儿茶酚、没食子酸酯、没食子儿茶素没食子酸酯及儿茶素没食子酸酯.本方法效率高、稳定性好,是复杂天然产物中抗氧化剂快速筛选与鉴别的有力工具.     

高效液相色谱法分析元宝枫叶中儿茶素类物质

本文建立了元宝枫树叶中儿茶素种类及其含量的高效液相色谱(HPLC)测定方法。采用反相C18色谱柱,以甲醇/水(含0.5%乙酸)=25/75(V/V)为流动相,对没食子儿茶素(GC)、表没食子儿茶素(EGC)、儿茶素(C)、表没食子儿茶素没食子酸酯(EGCG)、表儿茶素(EC)和没食子儿茶素没食子酸酯(GCG)进行定性、定量分析;以甲醇/水(含0.5%乙酸)=35/65(V/V)为流动相,对表儿茶素没食子酸酯(ECG)和儿茶素没食子酸酯(CG)进行定性分析,柱温均为35℃,检测波长为278 nm,流速为1.0mL/min。结果表明:元宝枫叶中有EGC、EC和GCG,其它五种则无。EGC平均含量为0.0389 mg/g,方法精密度(RSD)为0.42%(n=6);EC平均含量为0.0289 mg/g,方法RSD为1.5%(n=6);GCG平均含量为0.284 mg/g,方法RSD为0.32%(n=6)。该方法简便、准确、分离效果好,为元宝枫叶开发成茶叶、饮料以及医疗保健品提供重要依据。     

HPLC法测定茶叶中儿茶素及咖啡碱

以绿茶为样本,以GB/T 8305–1987水浸出方式作为样品的提取方法,使用C18色谱柱(150 mm×4.6mm,5μm),以A相(超纯水)、B相(N–N二甲基甲酰胺︰甲醇︰冰乙酸=40︰2︰1.5)为流动相,在最佳梯度洗脱条件下对8种组分进行分离,紫外检测器检测,检测波长为278 nm,外标法定量。没食子酸、咖啡碱、表没食子儿茶素、儿茶素、表儿茶素、表没食子儿茶素没食子酸酯、没食子基儿茶素没食子酸酯和表儿茶素没食子酸酯8种组分的进样质量分别在0.0243~0.1456,0.2549~1.5296,0.2027~1.2164,0.0182~0.1102,0.1606~0.9634,1.0004~6.0024,0.018 2~0.109 0,0.229 6~1.377 4μg范围内与色谱峰面积的线性关系良好(r为0.991 0~0.999 9);加标回收率为98.60%~100.17%,RSD均小于0.48%(n=3)。对样品进行6次重复测定,与标准方法相比,8种组分测定结果的相对偏差为0.47%~5.55%。该方法简便、快速、准确、稳定、重复性好,可用于茶叶中8种成分的定量分析。     

反相高效液相色谱法同时测定茶叶中六种儿茶素组分的研究

采用反相高效液相色谱法同时测定茶叶中L (+) 表儿茶素(L EC),L (-) 表儿茶素没食子酸酯(L ECG),L (-) 表没食子儿茶素没食子酸酯(L EGCG),L (-) 表没食子儿茶素(L EGC),(+) 没食子儿茶素没食子酸酯(GCG),DL 儿茶素(DL C)六种儿茶素组分,以乙醇∶乙酸∶水=14.5∶1.0∶84.5(体积比)为流动相(1.0ml·min-1),C18柱,UV检测器(278nm)。六种儿茶素组分的相对标准偏差分别为0.67%,0.45%,0.24%,0.56%,3.11%,4 41%,回收率分别为95.2%,98.2%,101.3%,97.0%,98.3%,97.5%。该法采用乙醇、乙酸等无毒溶剂作流动相,回收率高,用于实际样品测定,结果满意。     

HPLC法测定茶叶水提液中五种儿茶素和咖啡碱及其用于茶叶分类的研究

建立高效液相色谱/二极管阵列检测器(HPLC/DAD)同时测定茶叶中(-)-没食子儿茶素(GC),(-)-表没食子儿茶素(EGC),(-)-表没食子儿茶素没食子酸酯(EGCG),(-)-表儿茶素(EC),(-)-表儿茶素没食子酸酯(ECG),咖啡碱(caffeine)6种组分的分析方法,并采用聚类分析探讨以这6种活性成分为指标对茶叶进行分类的方法。采用C18柱,甲醇和0.05%三氟乙酸水溶液为流动相,梯度洗脱,DAD双波长(210、278 nm)同时检测,采用标准物质保留时间和电喷雾飞行时间质谱(ESI TOF-MS)双重定性。结果表明,各组分的色谱峰均达到基线分离,在210 nm对(-)-没食子儿茶素(GC)定量,278 nm对其它组分定量准确。该法重复性好,灵敏度高,回收率高,已用于不同种类的33种实际茶叶样品的测定。以这6种活性成分的含量为指标,采用聚类分析法可对33个红茶、黑茶、绿茶、乌龙茶样本进行合理分类,并能反映茶叶品质的差异。     

茶中茶多酚的高效液相色谱法分离分析

用改进的Ａｇａｒｗａｌ方法萃取不同种类茶叶和茶饮料中的茶多酚,建立了用高效液相色谱（ＨＰＬＣ）法对茶多酚进行分离分析方法。ＨＰＬＣ可有效分离ＧＴＰｓ主要组成成分ＥＣ、ＥＧＣ、ＥＣＧ和ＥＧＣＧ并精确定量,相对标准偏差小于５％。茶叶加工过程对ＧＴＰｓ含量有很大影响,绿茶总ＧＴＰｓ含量在６￣１５ｇ／１００ｇ干茶叶、乌龙茶总ＧＴＰｓ含量在５￣７ｇ／１００ｇ干茶叶,红茶总ＧＴＰｓ含量低于２ｇ／１００ｇ干茶叶     

Effect of Water Hardness on Catechin and Caffeine Content in Green Tea Infusions

The health benefits of green tea are associated with its high catechin content. In scientific studies, green tea is often prepared with deionized water. However, casual consumers will simply use their local tap water, which differs in alkalinity and mineral content depending on the region. To assess the effect of water hardness on catechin and caffeine content, green tea infusions were prepared with synthetic freshwater in five different hardness levels, a sodium bicarbonate solution, a mineral salt solution, and deionized water. HPLC analysis was performed with a superficially porous pentafluorophenyl column. As water hardness increased, total catechin yield decreased. This was mostly due to the autoxidation of epigallocatechin (EGC) and epigallocatechin gallate (EGCG). Epicatechin (EC), epicatechin gallate (ECG), and caffeine showed greater chemical stability. Autoxidation was promoted by alkaline conditions and resulted in the browning of the green tea infusions. High levels of alkaline sodium bicarbonate found in hard water can render some tap waters unsuitable for green tea preparation.     

茶叶及茶多酚中儿茶素的高效液相色谱分析方法研究

 筛选出HypersilBDSC18和ZorbaxSBC18两种适合同时分离茶叶和茶多酚中 7种儿茶素和咖啡因的反相柱。采用甲醇 水 醋酸 (或三氟醋酸 )作流动相 ,分别以等强度洗脱和梯度洗脱 (均在 30min内 )分离测定了我国 6种不同产地茶叶样品和 3种茶多酚样品中 7种儿茶素的含量。考察了 7种儿茶素和咖啡因的保留值与流动相组成及柱温的关系 ,优化了色谱条件及样品前处理方法。用电喷雾电离质谱 (ESI MS)定性确认没食子儿茶素没食子酸酯(GCG)和儿茶素没食子酸酯 (CG)两组分 ,并用高效液相色谱制备两对照品用于定量分析。     

Analysis of tea samples with a multisensor system and capillary electrophoresis

Potential of an “electronic tongue” multisensor system in identification of various tea samples and in quantitative analysis of separate tea components was studied. As a reference method for quantitative analysis of antioxidants of the polyphenolic type served micellar electrokinetic chromatography with a UV detector. The contents of epicatechin gallate, epigallocatechin gallate, epicatechin, epigallocatechin, gallic acid, gallocatechin gallate, and caffeine alkaloid in various tea samples were quantitatively estimated.     

Solid-state NMR analysis of the orientation and dynamics of epigallocatechin gallate, a green tea polyphenol, incorporated into lipid bilayers

Catechins are the principle polyphenolic compounds in green tea; the four major compounds identified are epicatechin (EC), epigallocatechin (EGC), epicatechin gallate (ECg) and epigallocatechin gallate (EGCg). Tea catechins tend to attach externally to their targets, such as viral envelopes, cell membranes, or the surface of low-density lipoproteins. In order to further our understanding of the molecular mobility of these compounds in cells, we examined the interaction of tea catechins with lipid membranes using solid-state NMR techniques. Our previous work indicated that the EGCg molecule is incorporated into lipid bilayers in a unique orientation. However, the detailed configuration, orientation, and dynamics of EGCg in lipid bilayers have not been well-characterized. Here, we investigated the orientation and dynamics of EGCg incorporated into multi-lamellar vesicles (MLVs) and bicelles using solid-state NMR spectroscopy.     

Evaluation inhibitory activity of catechins on trypsin by capillary electrophoresis–based immobilized enzyme microreactor with chromogenic substrate

In this study, a capillary electrophoresis‐based online immobilized enzyme microreactor was developed for evaluating the inhibitory activity of green tea catechins and tea polyphenol extracts on trypsin. The immobilized trypsin activity and other kinetic parameters were evaluated by measuring the peak area of the hydrolyzate of chromogenic substrate S‐2765. The results indicated that the activity of the immobilized trypsin remained approximately 90.0% of the initial immobilized enzyme activity after 30 runs. The value of Michaelis–Menten constant (K_m) was (0.47 ± 0.08) mM, and the half‐maximal inhibitory concentration (IC₅₀) and inhibition constant (K_i) of benzamidine were measured as 3.34 and 3.00 mM, respectively. Then, the inhibitory activity of four main catechins (epicatechin, epigallocatechin, epicatechin gallate, and epigallocatechin gallate) and three tea polyphenol extracts (green tea, white tea, and black tea) on trypsin were investigated. The results showed that four catechins and three tea polyphenol extracts had potential trypsin inhibitory activity. In addition, molecular docking results illustrated that epigallocatechin gallate, epicatechin gallate, epicatechin, and epigallocatechin were all located not only in the catalytic cavity, but also in the substrate‐binding pocket of trypsin. These results indicated that the developed method is an effective tool for evaluating inhibitory activity of catechins on trypsin.     

Rapid, direct determination of polyphenols in tea by reversed-phase column liquid chromatography.

Column liquid chromatography on a C18-bonded silica column with water-methanol-acetic acid as eluent was used to determine polyphenols and caffeine in tea. Without any pretreatment, catechin, epicatechin gallate, epigallocatechin gallate, epigallocatechin, epicatechin and caffeine were separated successfully within 15 min. The detection limits (S/N = 3) of polyphenols studied were 1.8-24 mg/l at a detection wavelength 270 nm. The linear range of the peak area calibration curves for the analytes were over two orders of magnitude with a correlation coefficient of 0.996-0.999. Using this method, some Chinese tea samples were analyzed with a good reproducibility (RSD are below 5%).     

Reactions of tea polyphenol four constituents with hydroxyl radical: A pulse radiolytic study

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Development and validation of a high‐throughput assay for the quantification of multiple green tea‐derived catechins in human plasma

A rapid, accurate and robust method for the determination of catechin (C), epicatechin (EC), gallocatechin (GC), epigallocatechin (EGC), catechin gallate (Cg), epicatechin gallate (ECg), gallocatechin gallate (GCg) and epigallocatechin gallate (EGCg) concentrations in human plasma has been developed. The method utilizes protein precipitation following enzyme hydrolysis, with chromatographic separation and detection using reversed‐phase liquid chromatography–tandem mass spectrometry (LC–MS/MS). Traditional issues such as lengthy chromatographic runtimes, sample and extract stability, and lack of suitable internal standards have been addressed. The method has been evaluated using a comprehensive validation procedure, confirming linearity over appropriate concentration ranges, and inter/intra‐batch precision and accuracies within suitable thresholds (precisions within 13.8% and accuracies within 12.4%). Recoveries of analytes were found to be consistent between different matrix samples, compensated for using suitable internal markers and within the performance of the instrumentation used. Similarly, chromatographic interferences have been corrected using the internal markers selected. Stability of all analytes in matrix is demonstrated over 32 days and throughout extraction conditions. This method is suitable for high‐throughput sample analysis studies.     

Simultaneous determination of twelve tea catechins by high-performance liquid chromatography with electrochemical detection.

A high-performance liquid chromatographic method with electrochemical detection was developed for the determination of twelve tea catechins including four major catechins: epicatechin (EC), epigallocatechin (EGC), epicatechin gallate (ECG) and epigallocatechin gallate (EGCG); four of their epimers at the C-2 position, C, GC, CG and GCG; and four methylated catechin derivatives, epigallocatechin-3-O-(3-O-methyl)gallate, gallocatechin-3-O-(3-O-methyl)gallate, epigallocatechin-3-O-(4-O-methyl)gallate and epicatechin-3-O-(3-O-methyl)gallate. These catechins were separated on an ODS C18 reversed-phase column by isocratic elution with 0.1 M NaH2PO4 buffer (pH 2.5)-acetonitrile (87:13) containing 0.1 mM EDTA.2Na. The detection limits (S/N = 3) of these catechins were approximately 10-40 pmol ml-1 at an applied voltage of 600 mV. Extracting these catechins from tea leaf powder with H2O-acetonitrile (1:1) at 30 degrees C for 40 min inhibited the epimerization at C-2 significantly from these epicatechins compared to extraction with hot water at 90 degrees C. This analytical method is sensitive to and appropriate for the simultaneous determination of various biologically active catechins in green tea.