利用在线加压溶剂提取-超高效液相色谱-离子阱-飞行时间-质谱法定性分析片仔癀化学成分组

doi:10.3724/SP.J.1123.2020.10011

色谱 ›› 2021, Vol. 39 ›› Issue (5): 478-487.DOI: 10.3724/SP.J.1123.2020.10011

利用在线加压溶剂提取-超高效液相色谱-离子阱-飞行时间-质谱法定性分析片仔癀化学成分组

李玮¹, 蒋珍珍², 李菡¹, 屠鹏飞¹, 宋青青¹^,^*(), 于娟²^,^*(), 宋月林¹

1.北京中医药大学中药学院, 中药现代研究中心, 北京 100029
2.漳州片仔癀药业股份有限公司, 福建漳州 363000

收稿日期:2020-10-20 出版日期:2021-05-08 发布日期:2021-03-31
通讯作者: 宋青青,于娟
作者简介:*Tel:(0596)2301615,E-mail:13906945397@163.com(于娟).
*Tel:(010) 64286100,E-mail:song_qingq@163.com(宋青青);
基金资助:
国家自然科学基金项目(82003911);国家自然科学基金项目(81773875);国家自然科学基金项目(81973444);漳州片仔癀药业股份有限公司.

Chemome profiling of Pien-Tze-Huang by online pressurized liquid extraction-ultra-high performance liquid chromatography-ion trap-time-of-flight mass spectrometry

LI Wei¹, JIANG Zhenzhen², LI Han¹, TU Pengfei¹, SONG Qingqing¹^,^*(), YU Juan²^,^*(), SONG Yuelin¹

1. Modern Research Center for Traditional Chinese Medicine, School of Chinese Materia Medica, Beijing University of Chinese Medicine, Beijing 100029, China
2. Zhangzhou Pien-Tze-Huang Pharmaceutical Co., Ltd., Zhangzhou 363000, China

Received:2020-10-20 Online:2021-05-08 Published:2021-03-31
Contact: SONG Qingqing,YU Juan
Supported by:
National Natural Science Foundation of China(82003911);National Natural Science Foundation of China(81773875);National Natural Science Foundation of China(81973444);Zhangzhou Pien-Tze-Huang Pharmaceutical Co., Ltd.

摘要/Abstract

摘要：

片仔癀(Pien-Tze-Huang)是由三七、牛黄、蛇胆、麝香等名贵中药经加工精制而成的中药制剂。片仔癀中的三七皂苷、胆汁酸以及麝香酮等主要化学成分已被深入研究,然而其全方化学成分组成尚未被整体阐明。该文建立了在线加压溶剂提取-超高效液相色谱-离子阱-飞行时间质谱(online PLE-UHPLC-IT-TOF-MS)法,快速、直接分析片仔癀化学成分组。将少量片仔癀粉末(0.3 mg)均匀地平铺于预柱芯尾端,之后用正相硅胶填充预柱芯,滤膜密封后构成提取池。提取池装入预柱套后置于70 ℃的柱温箱内,连接于UHPLC-IT-TOF-MS分析系统。通过引入一个二位六通电子阀,将整个分析过程自动在提取相和洗脱相间切换。提取相用时3 min,以0.1%(v/v)甲酸水为提取溶剂,流速为0.2 mL/min;洗脱相以0.1%(v/v)甲酸水和乙腈为流动相进行梯度洗脱,IT-TOF-MS检测。通过与对照品、相关文献和自建中药数据库对照,并总结相关质谱裂解规律,从片仔癀中共检测到73个化学成分,初步鉴定并归属了其中71个,36个来源于三七,15个来源于蛇胆,9个来源于牛黄,11个可能来源于牛黄与蛇胆,另有2个结构无法确定。该研究深入解析了片仔癀的化学成分组,为其质量分析提供了丰富的信息。同时,该文构建的online PLE-UHPLC-IT-TOF-MS分析系统为中药复杂体系快速、直接分析提供了可靠的工具。

关键词: 在线加压溶剂提取, 片仔癀, 化学成分组, 质谱裂解途径, 来源归属

Abstract:

Pien-Tze-Huang is one of the most famous traditional Chinese medicine prescriptions and consists of several precious medicinal materials, such as Notoginseng Radix et Rhizoma, Bovis Calculus, Snake Gall, and Moschus. However, its formula has not been completely revealed. It is mainly applied for the treatment of acute and chronic viral hepatitis, carbuncle, and boils caused by blood stasis, unknown swelling, bruises, and various inflammation disorders. The chemical composition of Pien-Tze-Huang is extremely complicated. Thus far, extensive attention has been paid to the principal chemical families in Pien-Tze-Huang, such as ginsenosides, bile acids, and muscone derivatives. Comprehensive chemical profiling, although of immense importance for systematic quality control, has not been achieved. Therefore, we configured a platform, namely online pressurized liquid extraction-ultra-high-performance liquid chromatography-ion trap-time-of-flight mass spectrometry (online PLE-UHPLC-IT-TOF-MS), to characterize the chemical profile of Pien-Tze-Huang in detail as well as to conduct source attribution, aiming to clarify the chemome of Pien-Tze-Huang and to provide a reliable method for quality assessment. A sub-microgram amount of Pien-Tze-Huang powder (0.3 mg) was placed in a hollow guard column, which was subsequently filled with clear silica gel. Filter membranes were used to seal the extraction vessel. The vessel was then placed in an adapted guard column holder and maintained in a thermal column oven (70 ℃). Metal tubing was used to connect the outlet of the guard column holder to the mass spectrometer. The extraction phase was maintained for 3 min by employing 0.1%(v/v) formic acid aqueous solution as the extraction solvent with a flow rate of 0.2 mL/min. Moreover, a six-port two-position electronic valve was introduced to automatically switch the system from extraction to elution phases. Within the elution phase, 0.1%(v/v) formic acid aqueous solution and acetonitrile composed the mobile phase, and the extracts were eluted with a gradient program. Because of the elevated temperature and pressure, the physical and chemical properties of water, especially polarity and solubility, were modified. Therefore, warm water could be an eligible green solvent to achieve wide polarity-spanned extraction. In addition, IT-TOF-MS was employed to acquire tandem mass spectrometry information. The mass fragmentation pathways of saponins and bile acids were carefully studied. Finally, according to authentic compounds, mass fragmentation pathways, reference information in the literature, and accessible databanks, a total of 73 signals were observed from Pien-Tze-Huang, of which 71 components were tentatively identified and assigned. Among them, 36 were from Notoginseng Radix et Rhizoma, 15 from Snake Gall, and 9 from Bovis Calculus, while the occurrences of the other 11 components were synergistically contributed by both Bovis Calculus and Snake Gall, through retrieving the in-house chemical database that was built by considering all accessible chemical information from Notoginseng Radix et Rhizoma, Bovis Calculus, Snake Gall, and Moschus. The other two compounds were assigned as unknown compounds. However, none of the components were assigned to Moschus because they mainly contained hydrophobic compounds, such as cycloketones, cholesterol, and sterols, among others, and it was difficult to detect them with the current measurement program. The extraction efficiency of online PLE was assessed by comparing it with the efficiency obtained from ultrasonication at the same time. According to base peak ion current chromatograms (BPCs) and mass spectrometry information, the efficiency of online PLE was greater than that of ultrasonic extraction, even through direct analysis. Online PLE-UHPLC-IT-TOF-MS is not only a tool fit for the concept of green analytical chemistry, but also a reliable analytical pipeline for the direct characterisation of other complicated matrixes. Above all, this study clarified the chemome of Pien-Tze-Huang and provided meaningful information for the quality control of this famous TCM prescription.

Key words: online pressurized liquid extraction, Pien-Tze-Huang, chemome profiling, mass fragmentation pathways, source attribution

中图分类号:

O658

李玮, 蒋珍珍, 李菡, 屠鹏飞, 宋青青, 于娟, 宋月林. 利用在线加压溶剂提取-超高效液相色谱-离子阱-飞行时间-质谱法定性分析片仔癀化学成分组[J]. 色谱, 2021, 39(5): 478-487.

LI Wei, JIANG Zhenzhen, LI Han, TU Pengfei, SONG Qingqing, YU Juan, SONG Yuelin. Chemome profiling of Pien-Tze-Huang by online pressurized liquid extraction-ultra-high performance liquid chromatography-ion trap-time-of-flight mass spectrometry[J]. Chinese Journal of Chromatography, 2021, 39(5): 478-487.

图/表 7

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No.Source	t_R/minRef.	Adduct ion	MS¹(m/z)	Formula	Error/10^-6	MS²(m/z)	Putative identity
1PN	5.52[14]	[M+HCOO]^-	549.1841	C₂₂H₃₂O₁₃	2.91	503.1850, 341.1057, 179.0582	notoginsenic acid β-sophoroside^#
2PN	5.87[15]	[M+HCOO]^-	861.4828	C₄₂H₇₂O₁₅	-2.90	653.4138	notoginsenoside SP1^#
3PN	6.68[16]	[M+2HCOO]^2-	592.2883	C₅₃H₉₀O₂₃	-5.91	569.2781	yesanchinoside-H
4PN	6.89[14]	[M+HCOO]^-	1007.5416	C₄₈H₈₂O₁₉	-1.59	961.5339, 799.4840, 637.4307, 475.3812	notoginsenoside R3/notoginsenoside R6/20-O-glucoginsenoside Rf
5PN	7.17[14]	[M+HCOO]^-	879.5001	C₄₂H₇₄O₁₆	4.78	833.4832, 785.7090, 671.4084	notoginsenoside J/isomer^#
6PN	7.24[14]	[M+HCOO]^-	1007.5425	C₄₈H₈₂O₁₉	-0.69	961.5343, 799.4841, 637.4272, 475.3674	notoginsenoside R3/notoginsenoside R6/20-O-glucoginsenoside Rf
7PN	7.31[14]	[M+HCOO]^-	879.5001	C₄₂H₇₄O₁₆	4.78	833.4832, 785.7090, 671.4084	notoginsenoside J/isomer^#
8PN	7.48[14]	[M+HCOO]^-	977.5323	C₄₈H₈₂O₂₀	-0.41	931.5145	notoginsenoside ST-5
9PN	7.52[14]	[M-H]^-	931.5273	C₄₇H₈₀O₁₈	0.11	799.4784, 769.4697, 637.4238, 475.3735	notoginsenoside R1^*
10PN	7.57[14]	[M-H]^-	931.5273	C₄₇H₈₀O₁₈	0.32	799.4763, 637.4263	notoginsenoside R1 isomer
11PN	7.68[17]	[M+HCOO]^-	991.5496	C₄₈H₈₂O₁₈	1.31	945.5354, 783.4815, 621.4317, 459.3765	notoginsenoside K/isomer
12PN	7.76[14]	[M+HCOO]^-	845.4865	C₄₂H₇₂O₁₄	-4.61	799.4821, 637.4260, 475.3742	ginsenoside Rg1^#
13PN	7.85-	[M+HCOO]^-	845.4950	C₄₂H₇₂O₁₄	5.44	799.4773, 637.4278, 475.3748	ginsenoside Rf^*
14SG	8.06[18]	[M-H]^-	530.2765	C₂₆H₄₅NO₈S	-5.66	512.2659	tauro-3α, 7α, 12α, 23R-tetrahydroxy-5β-cholenoic acid/isomer
15SG	8.11[18]	[M-H]^-	530.2776	C₂₆H₄₅NO₈S	-3.21	512.2659	tauro-3α, 7α, 12α, 23R-tetrahydroxy-5β-cholenoic acid/isomer
16SG	8.39[18]	[M-H]^-	530.2762	C₂₆H₄₅NO₈S	-5.85	512.2738	tauro-3α, 7α, 12α, 23R-tetrahydroxy-5β-cholenoic acid/isomer
17SG	8.48[18]	[M-H]^-	512.2667	C₂₆H₄₃NO₇S	-4.29	480.2223, 456.2491, 358.1651	tauro-Δ8-3β, 7α, 12α-trihydroxy-5β-cholenoic acid/isomer
18PN	8.50[16]	[M+HCOO]^-	815.4782	C₄₁H₇₀O₁₃	-1.96	769.4655, 637.4238, 475.3735	notoginsenoside R2/pseudoginsenoside RT3/isomer
19PN	8.55[14]	[M-H]^-	1239.6423	C₅₉H₁₀₀O₂₇	3.55	945.5369, 783.4814, 459.3795	notoginsenoside Ra3/ginsenoside R4/notoginsenoside Fa
20SG	8.60[18]	[M-H]^-	530.2766	C₂₆H₄₅NO₈S	-5.28	512.2660	tauro-3α, 7α, 12α, 23R-tetrahydroxy-5β-cholenoic acid/isomer
21SG	8.64[18]	[M-H]^-	512.2674	C₂₆H₄₃NO₇S	-2.54	494.2202, 387.2546, 369.2400	tauro-Δ8-3β, 7α, 12α-trihydroxy-5β-cholenoic acid/isomer
22PN	8.71[16]	[M-H]^-	1239.6360	C₅₉H₁₀₀O₂₇	-1.1	945.5367, 783.4932, 459.3841	ginsenoside Ra3/notoginsenoside R4/notoginsenoside Fa^#
23PN	8.78[16]	[M-H]^-	1239.6407	C₅₉H₁₀₀O₂₇	2.26	945.5398, 783.4816, 459.3772	ginsenoside Ra3/notoginsenoside R4/notoginsenoside Fa^#
24SG	8.99-	[M-H]^-	423.2731	C₂₄H₄₀O₆	-2.1	405.2617, 387.2546, 359.2597, 325.2513	3α, 6β, 7α, 12α-tetrahydroxy bile acid/isomer
25SG	9.09[18]	[M-H]^-	530.2767	C₂₆H₄₅NO₈S	-5.09	512.2635, 476.2432	tauro-3α, 7α, 12α, 23R-tetrahydroxy-5β-cholenoic acid/isomer
26SG	9.27[18]	[M-H]^-	512.2666	C₂₆H₄₃NO₇S	-4.10	456.2306, 358.1544, 328.1518	tauro-3α, 7α-dihydroxy-12-oxo-5β-cholenoic acid/isomer
27BC/SG	9.58[19]	[M-H]^-	514.2820	C₂₆H₄₅NO₇S	-4.67	496.2716, 480.2223, 358.1647, 353.2382	taurocholic acid/tauro-3α, 7α, 12α-trihydroxy-5α-cholenoic acid/isomer
28BC/SG	10.00[18]	[M-H]^-	514.2827	C₂₆H₄₅NO₇S	-3.31	496.2707, 353.2382, 329.2513	taurocholic acid/tauro-3α, 7α, 12α-trihydroxy-5α-cholenoic acid/isomer
29BC/SG	10.42[20]	[M-H]^-	514.2846	C₂₆H₄₅NO₇S	0.39	496.2722, 353.2466, 329.2496	taurocholic acid/tauro-3α, 7α, 12α-trihydroxy-5α-cholenoic acid/isomer
30BC/SG	10.84[21]	[M-H]^-	514.2825	C₂₆H₄₅NO₇S	-3.89	496.2642, 353.2453	taurocholic acid/tauro-3α, 7α, 12α-trihydroxy-5α-cholenoic acid/isomer
31PN	11.47[14]	[M+HCOO]^-	947.5239	C₄₆H₇₈O₁₇	1.90	901.5056	chikusetsusaponin L5
32SG	12.52[18]	[M-H]^-	512.2686	C₂₆H₄₃NO₇S	-0.2	456.2306, 358.1544, 328.1518	tauro-3α, 7α-dihydroxy-12-oxo-5β-cholenoic acid/isomer
33PN	13.01[14]	[M-H]^-	1107.5913	C₅₄H₉₂O₂₃	-3.97	945.5398, 783.4833, 765.4795	ginsenoside Rb1^#
34PN	13.40[14]	[M-H]^-	1107.5999	C₅₄H₉₂O₂₃	3.79	945.5380, 783.4814, 765.4736	yesanchinoside-E^#
35PN	13.75[14]	[M+HCOO]^-	815.4796	C₄₁H₇₀O₁₃	-0.25	769.4657, 637.4254, 475.3859	notoginsenoside R2/pseudoginsenoside RT3/isomer
36PN	15.06[14]	[M+HCOO]^-	815.4758	C₄₁H₇₀O₁₃	-4.91	769.4657, 637.4252, 475.3665	notoginsenoside R2/pseudoginsenoside RT3/isomer
37SG	15.55[18]	[M-H]^-	530.2770	C₂₆H₄₅NO₈S	-4.34	512.2633	tauro-3α, 7α, 12α, 23R-tetrahydroxy-5β-cholenoic acid/isomer
38SG	16.13-	[M-H]^-	423.2740	C₂₄H₄₀O₆	-2.84	405.2602, 325.2517	3α, 6β, 7α, 12α-tetrahydroxy bile acid/isomer
39BC/SG	17.11[21]	[M-H]^-	405.2623	C₂₄H₃₈O₅	-5.68	359.2492, 343.2637	3α, 12α-dihydroxy-7-oxo-5β-cholic acid/isomer
40SG	17.79-	[M-H]^-	423.2737	C₂₄H₄₀O₆	-9.21	405.2613, 325.2517	3α, 6β, 7α, 12α-tetrahydroxy bile acid/isomer
41SG	18.58-	[M-H]^-	423.2731	C₂₄H₄₀O₆	-7.80	405.2673, 325.2513	3α, 6β, 7α, 12α-tetrahydroxy bile acid/isomer
42BC/SG	18.98-	[M-H]^-	464.3001	C₂₆H₄₃NO₆	-3.66	446.2895, 402.2987, 382.2730, 353.2466	glycocholic acid^*
43PN	19.31[17]	[M+HCOO]^-	991.5481	C₄₈H₈₂O₁₈	-0.20	945.5323, 851.5223, 726.4848, 673.5301	gypeniside VIII
44PN	19.89-	[M+HCOO]^-	991.5483	C₄₈H₈₂O₁₈	0.00	945.5388, 783.4813, 621.4303, 459.3799	ginsenoside Rd^*
45PN	20.03-	[M-H]^-	945.5457	C₄₈H₈₂O₁₈	3.07	783.4815, 765.4795, 621.4319, 459.3767	ginsenoside Re^*
46PN	20.47[14]	[M+HCOO]^-	683.4354	C₃₆H₆₂O₉	-3.22	637.4279, 475.3736	ginsenoside Rh1/isomer^#
47PN	21.57[14]	[M-H]^-	945.5458	C₄₈H₈₂O₁₈	3.17	783.4807, 621.4295, 459.3835	notoginsenoside K/isomer
48BC/SG	22.34[21]	[M-H]^-	405.2607	C₂₄H₃₈O₅	-9.62	343.2625, 289.2152, 251.1989	3α, 12α-dihydroxy-7-oxo-5β-cholic acid/isomer
49PN	22.95[14]	[M+HCOO]^-	683.4376	C₃₆H₆₂O₉	0.00	637.4263, 475.3761	ginsenoside Rh1/isomer^#
50BC/SG	23.48[17]	[M-H]^-	498.2881	C₂₆H₄₅NO₆S	-2.81	480.2806, 355.2612	taurochenodeoxycholic acid^*
51BC	24.42[17]	[M-H]^-	498.2879	C₂₆H₄₅NO₆S	-3.21	480.2756, 355.2607	taurodeoxycholic acid^#
52BC/SG	25.56[21]	[M-H]^-	405.2633	C₂₄H₃₈O₅	-3.21	343.2632, 289.2158, 251.1991	3α, 12α-dihydroxy-7-oxo-5β-cholic acid/isomer
53SG	25.82-	[M-H]^-	487.2368	C₂₄H₄₀O₈S	0.82	452.1676, 408.2813	cholic acid-sulfate
54PN	26.05[14]	[M-H]^-	915.5297	C₄₇H₈₀O₁₇	-2.84	-	gypeniside IX
55BC/SG	26.79-	[M-H]^-	407.2785	C₂₄H₄₀O₅	-4.42	389.2666, 361.2698, 345.2771, 343.2618, 327.2652	cholic acid^*
56PN	27.16[14]	[M+HCOO]^-	815.4796	C₄₁H₇₀O₁₃	-0.25	769.4657, 637.4307, 475.3812	notoginsenoside R2/pseudoginsenoside RT3/isomer
57BC	29.50[22]	[M-H]^-	448.3042	C₂₆H₄₃NO₅	-5.80	404.3812, 386.3058, 355.2611	glycochenodeoxycholic acid
58PN	30.95-	[M+HCOO]^-	829.4933	C₄₂H₇₂O₁₃	-2.65	783.4795, 637.4115, 475.3675	ginsenoside Rg2^*
59PN	31.67[14]	[M+HCOO]^-	829.4918	C₄₂H₇₂O₁₃	-4.46	783.4793, 621.4165, 459.3762	ginsenoside Rg3 isomer
60BC/SG	32.56[22]	[M-H]^-	448.3054	C₂₆H₄₃NO₅	-3.12	430.2918, 402.2990, 386.3048	glycodeoxycholic acid^#
61PN	33.96-	[M+HCOO]^-	829.4933	C₄₂H₇₂O₁₃	-2.65	783.4795, 621.4337	ginsenoside F2^*
62PN	36.57[14]	[M-H]^-	665.4277	C₃₇H₆₂O₁₀	1.05	-	notoginsenoside T2/isomer
63BC	37.39-	[M-H]^-	465.3209	C₂₇H₄₆O₆	2.79	401.3024, 383.2961, 263.1984	tetrahydroxycholestan-26-oic acid^#
64BC	38.65-	[M-H]^-	391.2815	C₂₄H₄₀O₄	1.20	345.2769, 327.2698	ursodeoxycholic acid^*
65PN	39.23[14]	[M+HCOO]^-	829.4974	C₄₂H₇₂O₁₃	2.29	783.4743, 621.4149, 459.3672	ginsenoside Rg3^*
66BC	40.56-	[M-H]^-	391.2838	C₂₄H₄₀O₄	-4.09	345.2788, 327.2657	hyodeoxycholic acid^*
67BC	40.76-	[M-H]^-	389.2681	C₂₄H₃₈O₄	-4.11	371.2567, 309.2194	ketodeoxycholic acid^#
68BC	41.52-	[M-H]^-	391.2838	C₂₄H₄₀O₄	-4.09	373.2574	chenodeoxycholic acid^*
69BC	42.50-	[M-H]^-	391.2838	C₂₄H₄₀O₄	-4.09	345.2792, 327.2700	deoxycholic acid^#
70PN	43.57[14]	[M+HCOO]^-	667.4365	C₃₆H₆₂O₈	-9.29	621.4281, 459.3800	ginsenoside Rh2^*
71BC	44.24-	[M-H]^-	421.2950	C₂₅H₄₂O₅	-2.14	375.2884, 273.2215	methyl cholate
72N. A.	44.62-	[M-H]^-	299.2565	C₁₈H₃₆O₃	-8.35	281.2453, 253.2515, 225.2123	unknown
73N. A.	45.29-	[M-H]^-	795.5396	C₄₃H₇₆N₂O	-2.51	405.2581, 389.2588, 343.2570	unknown

No.Source	t_R/minRef.	Adduct ion	MS¹(m/z)	Formula	Error/10^-6	MS²(m/z)	Putative identity
1PN	5.52[14]	[M+HCOO]^-	549.1841	C₂₂H₃₂O₁₃	2.91	503.1850, 341.1057, 179.0582	notoginsenic acid β-sophoroside^#
2PN	5.87[15]	[M+HCOO]^-	861.4828	C₄₂H₇₂O₁₅	-2.90	653.4138	notoginsenoside SP1^#
3PN	6.68[16]	[M+2HCOO]^2-	592.2883	C₅₃H₉₀O₂₃	-5.91	569.2781	yesanchinoside-H
4PN	6.89[14]	[M+HCOO]^-	1007.5416	C₄₈H₈₂O₁₉	-1.59	961.5339, 799.4840, 637.4307, 475.3812	notoginsenoside R3/notoginsenoside R6/20-O-glucoginsenoside Rf
5PN	7.17[14]	[M+HCOO]^-	879.5001	C₄₂H₇₄O₁₆	4.78	833.4832, 785.7090, 671.4084	notoginsenoside J/isomer^#
6PN	7.24[14]	[M+HCOO]^-	1007.5425	C₄₈H₈₂O₁₉	-0.69	961.5343, 799.4841, 637.4272, 475.3674	notoginsenoside R3/notoginsenoside R6/20-O-glucoginsenoside Rf
7PN	7.31[14]	[M+HCOO]^-	879.5001	C₄₂H₇₄O₁₆	4.78	833.4832, 785.7090, 671.4084	notoginsenoside J/isomer^#
8PN	7.48[14]	[M+HCOO]^-	977.5323	C₄₈H₈₂O₂₀	-0.41	931.5145	notoginsenoside ST-5
9PN	7.52[14]	[M-H]^-	931.5273	C₄₇H₈₀O₁₈	0.11	799.4784, 769.4697, 637.4238, 475.3735	notoginsenoside R1^*
10PN	7.57[14]	[M-H]^-	931.5273	C₄₇H₈₀O₁₈	0.32	799.4763, 637.4263	notoginsenoside R1 isomer
11PN	7.68[17]	[M+HCOO]^-	991.5496	C₄₈H₈₂O₁₈	1.31	945.5354, 783.4815, 621.4317, 459.3765	notoginsenoside K/isomer
12PN	7.76[14]	[M+HCOO]^-	845.4865	C₄₂H₇₂O₁₄	-4.61	799.4821, 637.4260, 475.3742	ginsenoside Rg1^#
13PN	7.85-	[M+HCOO]^-	845.4950	C₄₂H₇₂O₁₄	5.44	799.4773, 637.4278, 475.3748	ginsenoside Rf^*
14SG	8.06[18]	[M-H]^-	530.2765	C₂₆H₄₅NO₈S	-5.66	512.2659	tauro-3α, 7α, 12α, 23R-tetrahydroxy-5β-cholenoic acid/isomer
15SG	8.11[18]	[M-H]^-	530.2776	C₂₆H₄₅NO₈S	-3.21	512.2659	tauro-3α, 7α, 12α, 23R-tetrahydroxy-5β-cholenoic acid/isomer
16SG	8.39[18]	[M-H]^-	530.2762	C₂₆H₄₅NO₈S	-5.85	512.2738	tauro-3α, 7α, 12α, 23R-tetrahydroxy-5β-cholenoic acid/isomer
17SG	8.48[18]	[M-H]^-	512.2667	C₂₆H₄₃NO₇S	-4.29	480.2223, 456.2491, 358.1651	tauro-Δ8-3β, 7α, 12α-trihydroxy-5β-cholenoic acid/isomer
18PN	8.50[16]	[M+HCOO]^-	815.4782	C₄₁H₇₀O₁₃	-1.96	769.4655, 637.4238, 475.3735	notoginsenoside R2/pseudoginsenoside RT3/isomer
19PN	8.55[14]	[M-H]^-	1239.6423	C₅₉H₁₀₀O₂₇	3.55	945.5369, 783.4814, 459.3795	notoginsenoside Ra3/ginsenoside R4/notoginsenoside Fa
20SG	8.60[18]	[M-H]^-	530.2766	C₂₆H₄₅NO₈S	-5.28	512.2660	tauro-3α, 7α, 12α, 23R-tetrahydroxy-5β-cholenoic acid/isomer
21SG	8.64[18]	[M-H]^-	512.2674	C₂₆H₄₃NO₇S	-2.54	494.2202, 387.2546, 369.2400	tauro-Δ8-3β, 7α, 12α-trihydroxy-5β-cholenoic acid/isomer
22PN	8.71[16]	[M-H]^-	1239.6360	C₅₉H₁₀₀O₂₇	-1.1	945.5367, 783.4932, 459.3841	ginsenoside Ra3/notoginsenoside R4/notoginsenoside Fa^#
23PN	8.78[16]	[M-H]^-	1239.6407	C₅₉H₁₀₀O₂₇	2.26	945.5398, 783.4816, 459.3772	ginsenoside Ra3/notoginsenoside R4/notoginsenoside Fa^#
24SG	8.99-	[M-H]^-	423.2731	C₂₄H₄₀O₆	-2.1	405.2617, 387.2546, 359.2597, 325.2513	3α, 6β, 7α, 12α-tetrahydroxy bile acid/isomer
25SG	9.09[18]	[M-H]^-	530.2767	C₂₆H₄₅NO₈S	-5.09	512.2635, 476.2432	tauro-3α, 7α, 12α, 23R-tetrahydroxy-5β-cholenoic acid/isomer
26SG	9.27[18]	[M-H]^-	512.2666	C₂₆H₄₃NO₇S	-4.10	456.2306, 358.1544, 328.1518	tauro-3α, 7α-dihydroxy-12-oxo-5β-cholenoic acid/isomer
27BC/SG	9.58[19]	[M-H]^-	514.2820	C₂₆H₄₅NO₇S	-4.67	496.2716, 480.2223, 358.1647, 353.2382	taurocholic acid/tauro-3α, 7α, 12α-trihydroxy-5α-cholenoic acid/isomer
28BC/SG	10.00[18]	[M-H]^-	514.2827	C₂₆H₄₅NO₇S	-3.31	496.2707, 353.2382, 329.2513	taurocholic acid/tauro-3α, 7α, 12α-trihydroxy-5α-cholenoic acid/isomer
29BC/SG	10.42[20]	[M-H]^-	514.2846	C₂₆H₄₅NO₇S	0.39	496.2722, 353.2466, 329.2496	taurocholic acid/tauro-3α, 7α, 12α-trihydroxy-5α-cholenoic acid/isomer
30BC/SG	10.84[21]	[M-H]^-	514.2825	C₂₆H₄₅NO₇S	-3.89	496.2642, 353.2453	taurocholic acid/tauro-3α, 7α, 12α-trihydroxy-5α-cholenoic acid/isomer
31PN	11.47[14]	[M+HCOO]^-	947.5239	C₄₆H₇₈O₁₇	1.90	901.5056	chikusetsusaponin L5
32SG	12.52[18]	[M-H]^-	512.2686	C₂₆H₄₃NO₇S	-0.2	456.2306, 358.1544, 328.1518	tauro-3α, 7α-dihydroxy-12-oxo-5β-cholenoic acid/isomer
33PN	13.01[14]	[M-H]^-	1107.5913	C₅₄H₉₂O₂₃	-3.97	945.5398, 783.4833, 765.4795	ginsenoside Rb1^#
34PN	13.40[14]	[M-H]^-	1107.5999	C₅₄H₉₂O₂₃	3.79	945.5380, 783.4814, 765.4736	yesanchinoside-E^#
35PN	13.75[14]	[M+HCOO]^-	815.4796	C₄₁H₇₀O₁₃	-0.25	769.4657, 637.4254, 475.3859	notoginsenoside R2/pseudoginsenoside RT3/isomer
36PN	15.06[14]	[M+HCOO]^-	815.4758	C₄₁H₇₀O₁₃	-4.91	769.4657, 637.4252, 475.3665	notoginsenoside R2/pseudoginsenoside RT3/isomer
37SG	15.55[18]	[M-H]^-	530.2770	C₂₆H₄₅NO₈S	-4.34	512.2633	tauro-3α, 7α, 12α, 23R-tetrahydroxy-5β-cholenoic acid/isomer
38SG	16.13-	[M-H]^-	423.2740	C₂₄H₄₀O₆	-2.84	405.2602, 325.2517	3α, 6β, 7α, 12α-tetrahydroxy bile acid/isomer
39BC/SG	17.11[21]	[M-H]^-	405.2623	C₂₄H₃₈O₅	-5.68	359.2492, 343.2637	3α, 12α-dihydroxy-7-oxo-5β-cholic acid/isomer
40SG	17.79-	[M-H]^-	423.2737	C₂₄H₄₀O₆	-9.21	405.2613, 325.2517	3α, 6β, 7α, 12α-tetrahydroxy bile acid/isomer
41SG	18.58-	[M-H]^-	423.2731	C₂₄H₄₀O₆	-7.80	405.2673, 325.2513	3α, 6β, 7α, 12α-tetrahydroxy bile acid/isomer
42BC/SG	18.98-	[M-H]^-	464.3001	C₂₆H₄₃NO₆	-3.66	446.2895, 402.2987, 382.2730, 353.2466	glycocholic acid^*
43PN	19.31[17]	[M+HCOO]^-	991.5481	C₄₈H₈₂O₁₈	-0.20	945.5323, 851.5223, 726.4848, 673.5301	gypeniside VIII
44PN	19.89-	[M+HCOO]^-	991.5483	C₄₈H₈₂O₁₈	0.00	945.5388, 783.4813, 621.4303, 459.3799	ginsenoside Rd^*
45PN	20.03-	[M-H]^-	945.5457	C₄₈H₈₂O₁₈	3.07	783.4815, 765.4795, 621.4319, 459.3767	ginsenoside Re^*
46PN	20.47[14]	[M+HCOO]^-	683.4354	C₃₆H₆₂O₉	-3.22	637.4279, 475.3736	ginsenoside Rh1/isomer^#
47PN	21.57[14]	[M-H]^-	945.5458	C₄₈H₈₂O₁₈	3.17	783.4807, 621.4295, 459.3835	notoginsenoside K/isomer
48BC/SG	22.34[21]	[M-H]^-	405.2607	C₂₄H₃₈O₅	-9.62	343.2625, 289.2152, 251.1989	3α, 12α-dihydroxy-7-oxo-5β-cholic acid/isomer
49PN	22.95[14]	[M+HCOO]^-	683.4376	C₃₆H₆₂O₉	0.00	637.4263, 475.3761	ginsenoside Rh1/isomer^#
50BC/SG	23.48[17]	[M-H]^-	498.2881	C₂₆H₄₅NO₆S	-2.81	480.2806, 355.2612	taurochenodeoxycholic acid^*
51BC	24.42[17]	[M-H]^-	498.2879	C₂₆H₄₅NO₆S	-3.21	480.2756, 355.2607	taurodeoxycholic acid^#
52BC/SG	25.56[21]	[M-H]^-	405.2633	C₂₄H₃₈O₅	-3.21	343.2632, 289.2158, 251.1991	3α, 12α-dihydroxy-7-oxo-5β-cholic acid/isomer
53SG	25.82-	[M-H]^-	487.2368	C₂₄H₄₀O₈S	0.82	452.1676, 408.2813	cholic acid-sulfate
54PN	26.05[14]	[M-H]^-	915.5297	C₄₇H₈₀O₁₇	-2.84	-	gypeniside IX
55BC/SG	26.79-	[M-H]^-	407.2785	C₂₄H₄₀O₅	-4.42	389.2666, 361.2698, 345.2771, 343.2618, 327.2652	cholic acid^*
56PN	27.16[14]	[M+HCOO]^-	815.4796	C₄₁H₇₀O₁₃	-0.25	769.4657, 637.4307, 475.3812	notoginsenoside R2/pseudoginsenoside RT3/isomer
57BC	29.50[22]	[M-H]^-	448.3042	C₂₆H₄₃NO₅	-5.80	404.3812, 386.3058, 355.2611	glycochenodeoxycholic acid
58PN	30.95-	[M+HCOO]^-	829.4933	C₄₂H₇₂O₁₃	-2.65	783.4795, 637.4115, 475.3675	ginsenoside Rg2^*
59PN	31.67[14]	[M+HCOO]^-	829.4918	C₄₂H₇₂O₁₃	-4.46	783.4793, 621.4165, 459.3762	ginsenoside Rg3 isomer
60BC/SG	32.56[22]	[M-H]^-	448.3054	C₂₆H₄₃NO₅	-3.12	430.2918, 402.2990, 386.3048	glycodeoxycholic acid^#
61PN	33.96-	[M+HCOO]^-	829.4933	C₄₂H₇₂O₁₃	-2.65	783.4795, 621.4337	ginsenoside F2^*
62PN	36.57[14]	[M-H]^-	665.4277	C₃₇H₆₂O₁₀	1.05	-	notoginsenoside T2/isomer
63BC	37.39-	[M-H]^-	465.3209	C₂₇H₄₆O₆	2.79	401.3024, 383.2961, 263.1984	tetrahydroxycholestan-26-oic acid^#
64BC	38.65-	[M-H]^-	391.2815	C₂₄H₄₀O₄	1.20	345.2769, 327.2698	ursodeoxycholic acid^*
65PN	39.23[14]	[M+HCOO]^-	829.4974	C₄₂H₇₂O₁₃	2.29	783.4743, 621.4149, 459.3672	ginsenoside Rg3^*
66BC	40.56-	[M-H]^-	391.2838	C₂₄H₄₀O₄	-4.09	345.2788, 327.2657	hyodeoxycholic acid^*
67BC	40.76-	[M-H]^-	389.2681	C₂₄H₃₈O₄	-4.11	371.2567, 309.2194	ketodeoxycholic acid^#
68BC	41.52-	[M-H]^-	391.2838	C₂₄H₄₀O₄	-4.09	373.2574	chenodeoxycholic acid^*
69BC	42.50-	[M-H]^-	391.2838	C₂₄H₄₀O₄	-4.09	345.2792, 327.2700	deoxycholic acid^#
70PN	43.57[14]	[M+HCOO]^-	667.4365	C₃₆H₆₂O₈	-9.29	621.4281, 459.3800	ginsenoside Rh2^*
71BC	44.24-	[M-H]^-	421.2950	C₂₅H₄₂O₅	-2.14	375.2884, 273.2215	methyl cholate
72N. A.	44.62-	[M-H]^-	299.2565	C₁₈H₃₆O₃	-8.35	281.2453, 253.2515, 225.2123	unknown
73N. A.	45.29-	[M-H]^-	795.5396	C₄₃H₇₆N₂O	-2.51	405.2581, 389.2588, 343.2570	unknown

利用在线加压溶剂提取-超高效液相色谱-离子阱-飞行时间-质谱法定性分析片仔癀化学成分组

Chemome profiling of Pien-Tze-Huang by online pressurized liquid extraction-ultra-high performance liquid chromatography-ion trap-time-of-flight mass spectrometry

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