National Engineering Laboratory for TCM Standardization Technology, Shanghai Institute of Materia Medica, Chinese Academy of Sciences, 501 Haike Road, Shanghai 201203, China.
ThermoFisher Scientific (China) Co., Ltd, No 6 Building, 27 Xinjinqiao Road, Shanghai 201206, China.
Anal Chim Acta. 2015 Sep 24;894:44-53. doi: 10.1016/j.aca.2015.07.050. Epub 2015 Aug 11.
Sulfurous compounds are commonly present in plants, fungi, and animals. Most of them were reported to possess various bioactivities. Isotopic pattern filter (IPF) is a powerful tool for screening compounds with distinct isotope pattern. Over the past decades, the IPF was used mainly to study Cl- and Br-containing compounds. To our knowledge, the algorithm was scarcely used to screen S-containing compounds, especially when combined with chromatography analyses, because the (34)S isotopic ion is drastically affected by (13)C2 and (18)O. Thus, we present a new method for a fine isotopic pattern filter (FIPF) based on the separated M + 2 ions ((12)C(x)(1)H(y)(16)O(z)(32)S(13)C2(18)O, (12)C(x+2)(1)H(y)(16)O(z+1)(34)S, tentatively named M + 2OC and M + 2S) with an ultra-high-resolution mass (100,000 FWHM @ 400 m/z) to screen sulfur derivatives in traditional Chinese medicines (TCM).This finer algorithm operates through convenient filters, including an accurate mass shift of M + 2OC and M + 2S from M and their relative intensity compared to M. The method was validated at various mass resolutions, mass accuracies, and screening thresholds of flexible elemental compositions. Using the established FIPF method, twelve S-derivatives were found in the popular medicinal used Pueraria species, and 9 of them were tentatively identified by high-resolution multiple stage mass spectrometry (HRMS(n)). The compounds were used to evaluate the sulfurous compounds' situation in commercially purchased Pueraria products. The strategy presented here provides a promising application of the IPF method in a new field.
含硫化合物普遍存在于植物、真菌和动物中。其中大多数被报道具有各种生物活性。同位素模式过滤器(IPF)是一种筛选具有独特同位素模式的化合物的强大工具。在过去的几十年中,该 IPF 主要用于研究含 Cl 和 Br 的化合物。据我们所知,该算法很少用于筛选含 S 的化合物,特别是与色谱分析结合使用时,因为 (34)S 同位素离子受 (13)C2 和 (18)O 的影响很大。因此,我们提出了一种新的精细同位素模式过滤器(FIPF)方法,该方法基于分离的 M + 2 离子((12)C(x)(1)H(y)(16)O(z)(32)S(13)C2(18)O、(12)C(x+2)(1)H(y)(16)O(z+1)(34)S,暂命名为 M + 2OC 和 M + 2S)进行精细同位素模式筛选,该方法采用超高分辨率质量(100,000 FWHM@400 m/z),用于筛选中药中的硫衍生物。该更精细的算法通过方便的过滤器操作,包括 M + 2OC 和 M + 2S 相对于 M 的精确质量偏移及其与 M 的相对强度。该方法在不同的质量分辨率、质量精度和灵活元素组成的筛选阈值下进行了验证。使用建立的 FIPF 方法,在受欢迎的药用葛根属植物中发现了 12 种 S 衍生物,其中 9 种通过高分辨多级质谱(HRMS(n))进行了初步鉴定。这些化合物用于评估市售葛根产品中含硫化合物的情况。本研究提出的策略为 IPF 方法在新领域的应用提供了一种有前途的应用。
