采用超高压液相色谱作为二维全面分析甜菊叶提取物的二维系统中的第二维。

Employing ultra high pressure liquid chromatography as the second dimension in a comprehensive two-dimensional system for analysis of Stevia rebaudiana extracts.

机构信息

Office of Regulatory Science, Center for Food Safety and Applied Nutrition, US Food and Drug Administration, 5100 Paint Branch Pkwy, HFS-717, College Park, MD 20740, USA.

出版信息

J Chromatogr A. 2011 Apr 15;1218(15):2012-8. doi: 10.1016/j.chroma.2010.08.081. Epub 2010 Sep 9.

DOI:10.1016/j.chroma.2010.08.081

PMID:20883998

Abstract

Stevia rebaudiana extracts and plant materials are increasingly used as natural sweeteners. Polyphenolic and stevioside compounds contained in S. rebaudiana extracts were separated by comprehensive LC. A polyamine column operated in normal phase mode was used for the first dimension separation (D1), and a UHPLC C18 column operated in reversed phase mode was used for the second dimension separation (D2). The sub-2 μm column (2.1 mm × 30 mm, maintained at 70°C) and the UHPLC pump employed for D2 elution allowed a separation/cycle time of 20 s, with a backpressure oscillating between 805 and 922 bar at 3.4 mL/min. The reduced D2 cycle time allowed 3-12 D2 samplings for each peak eluted by D1. Polyphenolic and stevioside compounds were identified by combining the information coming from the position of the compounds in the 2D plot and UV spectra with that of reference materials.

摘要

甜菊叶提取物和植物材料越来越多地被用作天然甜味剂。通过全面的 LC 分离甜叶菊提取物中的多酚和甜菊糖苷化合物。采用正相模式的多胺柱进行第一维分离（D1），采用反相模式的超高效 C18 柱进行第二维分离（D2）。用于 D2 洗脱的 sub-2 μm 柱（2.1mm×30mm，保持在 70°C）和 UHPLC 泵允许分离/循环时间为 20s，背压在 805 和 922 巴之间波动，流速为 3.4mL/min。D2 循环时间的缩短允许对 D1 洗脱的每个峰进行 3-12 次 D2 采样。通过将化合物在二维图谱中的位置以及 UV 光谱与参考物质的信息相结合，鉴定出多酚和甜菊糖苷化合物。

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采用超高压液相色谱作为二维全面分析甜菊叶提取物的二维系统中的第二维。

Employing ultra high pressure liquid chromatography as the second dimension in a comprehensive two-dimensional system for analysis of Stevia rebaudiana extracts.

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