CN108318599B - A kind of efficient liquid-phase chromatography method separating triptolide and 2- table triptolide - Google Patents

Abstract

The invention discloses a kind of efficient liquid-phase chromatography methods for separating triptolide and 2- table triptolide.Triptonide, triptolide, triptolide and 2- table triptolide structure in tripterygium wilfordii is very close, and wherein triptolide and 2- table triptolide are a pair of of chiral isomer, and separating difficulty is big.For the prior art when separating these four compounds, nothing is independent of silica gel column chromatography repeatedly, however silica gel column chromatography expends solvent, poor reproducibility repeatedly, it is difficult to promote in the industrial production.At present in industrial production, uniquely there was only macroreticular resin in the column chromatography used.Method provided by the invention separates independent of silica gel column chromatography repeatedly and prepares triptonide, triptolide, triptolide and 2- table triptolide.HPLC method of the present invention can efficiently separate chiral isomer triptolide and 2- table triptolide, at low cost, repeated height based on conventional C18 chromatographic column.

Description

A kind of efficient liquid-phase chromatography method separating triptolide and 2- table triptolide

Technical field

The invention belongs to chemical fields, are related to the preparation method and method for separating and analyzing of known compound, and in particular to one Kind prepare triptonide, triptolide, triptolide and 2- table triptolide method and triptolide With the HPLC method for separating and analyzing of 2- table triptolide.

Background technique

The study found that the very similar chemical component of four kinds of structures being present in tripterygium wilfordii has excellent antitumor work Property, it is respectively as follows: triptonide, triptolide, triptolide and 2- table triptolide.Structural formula is as follows:

Chemically structure is it can be found that this four compound structures are very close, wherein triptolide and 2- table Thunder God Rattan B prime is a pair of of chiral isomer.This causes the separating difficulty of this four compounds very big.The prior art separate this four When kind compound, nothing is independent of silica gel column chromatography repeatedly, however silica gel column chromatography expends solvent, poor reproducibility repeatedly, only suitable It is separated on a small quantity together in laboratory, it is difficult to promote in the industrial production.At present in industrial production, uniquely only have in the column chromatography used Macroreticular resin.

Therefore, a kind of separation method based on macroreticular resin helps to realize the industrialized production system of above-mentioned four kinds of compounds It is standby.

Summary of the invention

Triptonide, tripterygium wilfordii first are prepared it is an object of the invention to overcome the deficiencies of the prior art and provide a kind of The HPLC of element, the method and triptolide of triptolide and 2- table triptolide and 2- table triptolide separates analysis Method.

Above-mentioned purpose of the invention is achieved by following technical solution:

The preparation of triptonide:

A method of triptonide is prepared, is included the following steps:

Step S1 is extracted: the dry root of Celastraceae plant tripterygium wilfordii being crushed, ethanol solution cold soaking extracts, and recycling is extracted Ethyl alcohol in liquid is simultaneously diluted with water, and filters, and collects filtrate as macroreticular resin sample solution；

Step S2, XDA-1B macroporous adsorbing resin for purification: as separating medium and filling column using XDA-1B macroporous absorbent resin, tree Rouge diameter height compares for 1:10, mixes sample resin accounts for resin total amount 1/10, wet method dress post mixes resin loading；First use 35% second of 12BV Alcohol is cleaned with the flow velocity of 12BV/h, and rear 75% ethyl alcohol (triethylamine containing a ten thousandth, volumn concentration) with 8BV is with 12BV/h Flow velocity elute and collect 5-8BV eluent；The eluent of collection is concentrated to dryness up to crude product；

The purification of alkali open ring acid closed loop: step S3 crude product obtained by step S2 is dissolved using the buck that pH value is 9.5, filtering Insoluble matter is removed, filtrate is adjusted with acid pH value to 6.5 again, and precipitate, washing, drying, with 65% second is collected by filtration in low temperature crystallization Alcohol (triethylamine containing a ten thousandth, volumn concentration) dissolution is used as sample solution；

The separation of step S4, DM130 macroporous absorbent resin: column as separating medium and is filled using DM130 macroporous absorbent resin, resin Diameter height compares for 1:20, mixes sample resin accounts for resin total amount 1/20, wet method dress post mixes resin loading；(contained with 65% ethyl alcohol of 9BV A ten thousandth triethylamine, volumn concentration) 8-9BV eluent is eluted and collected with the flow velocity of 4BV/h, 8-9BV eluent is dense Contracting is drying to obtain triptonide.

Preferably, the solid-to-liquid ratio that step S1 is extracted is 1:5, and 1kg dry root extracts the ethanol solution cold soaking of application 5L.

Preferably, step S1 is extracted with 95% ethyl alcohol cold soaking.

Preferably, step S1 is diluted with water to 0.5g crude drug/mL after recycling the ethyl alcohol in extracting solution, filters, and collects filtrate As macroreticular resin sample solution.

Preferably, it is that sample solution corresponds to the 1/2 of crude drug quality that step S2, which mixes sample resin quality,.

Preferably, step S3 buck is ammonia spirit.

Preferably, step S3 acid is hydrochloric acid.

Preferably, the temperature of step S3 low temperature crystallization is 4 DEG C.

Preferably, it is molten to be dissolved into 0.5g/mL for step S3 65% ethyl alcohol (triethylamine containing a ten thousandth, volumn concentration) Liquid is as sample solution.

Preferably, step S4 mixes 1/2 that sample resin quality is the corresponding precipitation amount of substance of sample solution.

The preparation of triptolide:

A method of triptolide is prepared, is included the following steps:

Step S1 is extracted: the dry root of Celastraceae plant tripterygium wilfordii being crushed, ethanol solution cold soaking extracts, and recycling is extracted Ethyl alcohol in liquid is simultaneously diluted with water, and filters, and collects filtrate as macroreticular resin sample solution；

Step S2, XDA-1B macroporous adsorbing resin for purification: as separating medium and filling column using XDA-1B macroporous absorbent resin, tree Rouge diameter height compares for 1:10, mixes sample resin accounts for resin total amount 1/10, wet method dress post mixes resin loading；First use 35% second of 12BV Alcohol is cleaned with the flow velocity of 12BV/h, and rear 75% ethyl alcohol (triethylamine containing a ten thousandth, volumn concentration) with 8BV is with 12BV/h Flow velocity elute and collect 5-8BV eluent；The eluent of collection is concentrated to dryness up to crude product；

The purification of alkali open ring acid closed loop: step S3 crude product obtained by step S2 is dissolved using the buck that pH value is 9.5, filtering Insoluble matter is removed, filtrate is adjusted with acid pH value to 6.5 again, and precipitate, washing, drying, with 65% second is collected by filtration in low temperature crystallization Alcohol (triethylamine containing a ten thousandth, volumn concentration) dissolution is used as sample solution；

The separation of step S4, DM130 macroporous absorbent resin: column as separating medium and is filled using DM130 macroporous absorbent resin, resin Diameter height compares for 1:20, mixes sample resin accounts for resin total amount 1/20, wet method dress post mixes resin loading；(contained with 65% ethyl alcohol of 12BV A ten thousandth triethylamine, volumn concentration) 11-12BV eluent, 11-12BV elution are eluted and collected with the flow velocity of 4BV/h Liquid is concentrated and dried up to triptolide.

Preferably, the solid-to-liquid ratio that step S1 is extracted is 1:5, and 1kg dry root extracts the ethanol solution cold soaking of application 5L.

Preferably, step S1 is extracted with 95% ethyl alcohol cold soaking.

Preferably, step S1 is diluted with water to 0.5g crude drug/mL after recycling the ethyl alcohol in extracting solution, filters, and collects filtrate As macroreticular resin sample solution.

Preferably, it is that sample solution corresponds to the 1/2 of crude drug quality that step S2, which mixes sample resin quality,.

Preferably, step S3 buck is ammonia spirit.

Preferably, step S3 acid is hydrochloric acid.

Preferably, the temperature of step S3 low temperature crystallization is 4 DEG C.

Preferably, it is molten to be dissolved into 0.5g/mL for step S3 65% ethyl alcohol (triethylamine containing a ten thousandth, volumn concentration) Liquid is as sample solution.

Preferably, step S4 mixes 1/2 that sample resin quality is the corresponding precipitation amount of substance of sample solution.

The preparation of triptolide and 2- table triptolide:

A method of triptolide and 2- table triptolide are prepared, is included the following steps:

Step S1 is extracted: the dry root of Celastraceae plant tripterygium wilfordii being crushed, ethanol solution cold soaking extracts, and recycling is extracted Ethyl alcohol in liquid is simultaneously diluted with water, and filters, and collects filtrate as macroreticular resin sample solution；

Step S2, XDA-1B macroporous adsorbing resin for purification: as separating medium and filling column using XDA-1B macroporous absorbent resin, tree Rouge diameter height compares for 1:10, mixes sample resin accounts for resin total amount 1/10, wet method dress post mixes resin loading；First use 35% second of 12BV Alcohol is cleaned with the flow velocity of 12BV/h, and rear 75% ethyl alcohol (triethylamine containing a ten thousandth, volumn concentration) with 8BV is with 12BV/h Flow velocity elute and collect 5-8BV eluent；The eluent of collection is concentrated to dryness up to crude product；

The purification of alkali open ring acid closed loop: step S3 crude product obtained by step S2 is dissolved using the buck that pH value is 9.5, filtering Insoluble matter is removed, filtrate is adjusted with acid pH value to 6.5 again, and precipitate, washing, drying, with 65% second is collected by filtration in low temperature crystallization Alcohol (triethylamine containing a ten thousandth, volumn concentration) dissolution is used as sample solution；

The separation of step S4, DM130 macroporous absorbent resin: column as separating medium and is filled using DM130 macroporous absorbent resin, resin Diameter height compares for 1:20, mixes sample resin accounts for resin total amount 1/20, wet method dress post mixes resin loading；(contained with 65% ethyl alcohol of 6BV A ten thousandth triethylamine, volumn concentration) 5-6BV eluent is eluted and collected with the flow velocity of 4BV/h, it is concentrated and dried up to thunder Public rattan B prime and 2- table triptolide mixture；

Step S5, high speed adverse current chromatogram separation: with ethyl acetate-n-butanol-water-glacial acetic acid (4:1:3:0.01) for solvent System, with thereon mutually for stationary phase, lower phase is mobile phase；Triptolide obtained by step S4 and 2- table triptolide are mixed The isometric stationary phase of object and flowing phased soln, filtration, as sample solution；Revolving speed is 850r/min, and flow rate of mobile phase is It is corresponding to collect triptolide, 2- table triptolide chromatographic peak according to chromatogram by 2.5mL/min, Detection wavelength 220nm Eluent is concentrated and dried up to triptolide, 2- table triptolide.

Preferably, the solid-to-liquid ratio that step S1 is extracted is 1:5, and 1kg dry root extracts the ethanol solution cold soaking of application 5L.

Preferably, step S1 is extracted with 95% ethyl alcohol cold soaking.

Preferably, step S1 is diluted with water to 0.5g crude drug/mL after recycling the ethyl alcohol in extracting solution, filters, and collects filtrate As macroreticular resin sample solution.

Preferably, it is that sample solution corresponds to the 1/2 of crude drug quality that step S2, which mixes sample resin quality,；Step S4 mixes sample resin quality The 1/2 of amount of substance is precipitated for sample solution is corresponding.

Preferably, step S3 buck is ammonia spirit.

Preferably, step S3 acid is hydrochloric acid.

Preferably, the temperature of step S3 low temperature crystallization is 4 DEG C.

Preferably, it is molten to be dissolved into 0.5g/mL for step S3 65% ethyl alcohol (triethylamine containing a ten thousandth, volumn concentration) Liquid is as sample solution.

Preferably, the concentration of step S5 sample solution is 10mg/mL.

The HPLC separation method of triptolide and 2- table triptolide:

It is a kind of separate triptolide and 2- table triptolide efficient liquid-phase chromatography method, be with C18 reverse phase silica gel Stationary phase, with methanol/acetonitrile/tetrahydrofuran/triethylamine/water=15/10/3/0.1/72 (volume ratio) for mobile phase.

Preferably, chromatographic column is Ultimate XB-C18.

Preferably, chromatographic column filler partial size is 5 μm.

Preferably, column length 250mm, internal diameter 4.6mm.

Preferably, Detection wavelength 220nm.

Preferably, flow rate of mobile phase 1.0mL/min.

Preferably, sample volume is 10 μ L.

Advantages of the present invention:

Method provided by the invention separates independent of silica gel column chromatography repeatedly and prepares triptonide, tripterygium wilfordii A prime, triptolide and 2- table triptolide, are suitable for industrialized production.HPLC analysis method provided by the invention is based on Conventional C18 chromatographic column can efficiently separate chiral isomer triptolide and 2- table triptolide, at low cost, repeated It is high.

Detailed description of the invention

Fig. 1 is that the HPLC of XDA-1B macroporous adsorbing resin for purification product detects chromatogram, from this figure, it can be seen that in addition to thunder Public rattan lactone ketone, triptolide, triptolide and 2- table triptolide, the product also contain more impurity；

Fig. 2 is that the HPLC of alkali open ring acid closed loop refined products detects chromatogram, be can be seen that from the figure, by this step, thunder Public rattan lactone ketone, triptolide, triptolide and 2- table triptolide are further enriched with, and impurity component significantly subtracts It is few；

Fig. 3 is the HPLC detection chromatogram that DM130 macroporous absorbent resin 5-6BV eluent is concentrated and dried product, substantially only Contain triptolide and 2- table triptolide；

Fig. 4 is the HPLC detection chromatogram that DM130 macroporous absorbent resin 8-9BV eluent is concentrated and dried product, substantially only Contain triptonide；

Fig. 5 is the HPLC detection chromatogram that DM130 macroporous absorbent resin 11-12BV eluent is concentrated and dried product, substantially Contain only triptolide；

Fig. 6 is to be concentrated to do using the DM130 macroporous absorbent resin 5-6BV eluent for the elution for not adding triethylamine The HPLC of dry product detects chromatogram, triptonide and triptolide and 2- table triptolide co-elute；

Fig. 7 is to be concentrated to do using the DM130 macroporous absorbent resin 8-9BV eluent for the elution for not adding triethylamine The HPLC of dry product detects chromatogram, triptonide and triptolide and 2- table triptolide co-elute；

Fig. 8 is HSCCC separation chromatogram, triptolide and 2- table triptolide baseline separation；

Fig. 9 is that HSCCC of the dicyandiamide solution without glacial acetic acid separates spectrogram, and triptolide and 2- table triptolide are washed altogether It is de-；

Figure 10 is that three kinds of different mobile phases are poor to the separation of triptolide and 2- table triptolide in C18 chromatographic column It is different.

Specific embodiment

It is specific with reference to the accompanying drawings and examples to introduce essentiality content of the present invention, but guarantor of the invention is not limited with this Protect range.

One, experimental material

The dry root of tripterygium wilfordii is purchased from Bozhou Chinese Medicinal Materials Markets, is identified as the dry root of Celastraceae plant tripterygium wilfordii；

XDA-1B macroporous absorbent resin is purchased from Zhengzhou Qin Shi Science and Technology Ltd.；

DM130 macroporous absorbent resin is purchased from Anhui Samsung resin Science and Technology Ltd.；

95% ethyl alcohol, triethylamine, ethyl acetate, n-butanol, ammonium hydroxide and hydrochloric acid are purchased from the limited public affairs of Nanjing chemical reagent share Department；

TBE-300C type high-speed counter-current chromatograph, Shanghai Tongtian Biotechnology Co., Ltd..

Two, experimental method

A method of triptonide, triptolide, triptolide and 2- table triptolide are prepared, is wrapped It includes:

Step S1 is extracted: the dry root of Celastraceae plant tripterygium wilfordii being crushed, 95% ethyl alcohol cold soaking extracts overnight, solid-liquid It than 1:5, recycles the ethyl alcohol in extracting solution and is diluted with water to 0.5g crude drug/mL, filter, collect filtrate as macroreticular resin loading Liquid；

Step S2, XDA-1B macroporous adsorbing resin for purification: as separating medium and filling column using XDA-1B macroporous absorbent resin, tree Rouge diameter height compares for 1:10, mixes sample resin accounts for resin total amount 1/10, and mixing sample resin quality is that sample solution corresponds to the 1/ of crude drug quality 2, wet method dress post mixes resin loading；It is first cleaned with 35% ethyl alcohol of 12BV with the flow velocity of 12BV/h, rear 75% ethyl alcohol for using 8BV (triethylamine containing a ten thousandth, volumn concentration) is eluted with the flow velocity of 12BV/h and collects 5-8BV eluent；By washing for collection De- liquid is concentrated to dryness up to crude product；

Step S3, alkali open ring acid closed loop purification: the ammonia solvent for the use of pH value being 9.5 by crude product obtained by step S2, filtering Insoluble matter is removed, filtrate uses salt acid for adjusting pH value to 6.5,4 DEG C of low temperature crystallizations again, precipitate, washing, dry, use is collected by filtration 65% ethyl alcohol (triethylamine containing a ten thousandth, volumn concentration) is dissolved into 0.5g/mL solution as sample solution；

The separation of step S4, DM130 macroporous absorbent resin: column as separating medium and is filled using DM130 macroporous absorbent resin, resin Diameter height compares for 1:20, mixes sample resin accounts for resin total amount 1/20, and mixing sample resin quality, to be that sample solution is corresponding be precipitated the 1/ of amount of substance 2, wet method dress post mixes resin loading；With 65% ethyl alcohol (triethylamine containing a ten thousandth, volumn concentration) of 12BV with 4BV/h Flow velocity elute and collect 5-6BV, 8-9BV, 11-12BV eluent；5-6BV eluent be concentrated and dried up to triptolide and 2- table triptolide mixture, 8-9BV eluent are concentrated and dried up to triptonide, and the concentration of 11-12BV eluent is dry Dry triptolide to obtain the final product；

Step S5, high speed adverse current chromatogram (HSCCC) separation: with ethyl acetate-n-butanol-water-glacial acetic acid (4:1:3: It 0.01) is dicyandiamide solution, with thereon mutually for stationary phase, lower phase is mobile phase；By triptolide obtained by step S4 and 2- table thunder Public rattan B prime mixture 10mL stationary phase and 10mL mobile phase ultrasonic dissolution, filtration, as sample solution；Revolving speed is 850r/ Min, flow rate of mobile phase 2.5mL/min, Detection wavelength 220nm collect triptolide, 2- table tripterygium wilfordii according to chromatogram The corresponding eluent of B prime chromatographic peak is concentrated and dried up to triptolide, 2- table triptolide.

The specific method is as follows for high speed adverse current chromatogram:

It is placed in separatory funnel, is fullyd shake with ethyl acetate-n-butanol-water-glacial acetic acid (4:1:3:0.01) mixed liquor Stratification afterwards takes phase up and down, ultrasonic degassing 20min respectively.Upper phase is stationary phase, and lower phase is mobile phase.By stationary phase with The volume flow of 20mL/min adjusts in the upper phase injection HSCCC separating pipe of dicyandiamide solution after upper phase is full of entire pipeline Engine speed is 850r/min, then injects mobile phase with the volume flow of 2.5mL/min, and it is flat that two-phase reaches dynamic in separating pipe After weighing apparatus, 20mL sample liquid (10mg/mL) is injected by injection port, 25 DEG C of temperature, Detection wavelength 220nm obtains HSCCC separation figure.

The HPLC analysis method parameter of each sample:

Chromatographic column: moon rising sun Ultimate XB-C18 (5 μm, 4.6 × 250mm)

Mobile phase: methanol/acetonitrile/tetrahydrofuran/triethylamine/water=15/10/3/0.1/72 (volume ratio) isocratic elution

Detection wavelength: 220nm

Flow velocity: 1.0mL/min.

Three, experimental result

1, XDA-1B macroporous adsorbing resin for purification result

The effect of XDA-1B macroporous absorbent resin is the triptonide being enriched in tripterygium wilfordii, triptolide, thunder Public rattan B prime and 2- table triptolide.The HPLC testing result of the crude product of enrichment as shown in Figure 1, it will be seen from figure 1 that in addition to Triptonide, triptolide, triptolide and 2- table triptolide also contain more impurity in the crude product.

2, alkali open ring acid closed loop upgrading result

The step of alkali open ring acid closed loop refines is using under lactone compound under alkaline condition open loop, acid condition The principle of closed loop is further enriched with triptonide, triptolide, triptolide and 2- table triptolide.By excellent The pH value for changing alkaline condition and acid condition can obtain target lactone constituents to the maximum extent.The step refined products HPLC testing result is as shown in Fig. 2, figure it is seen that by this step, triptonide, triptolide, tripterygium wilfordii B prime and 2- table triptolide are further enriched with, and impurity component substantially reduces.

3, DM130 macroporous absorbent resin separating resulting

The effect of DM130 macroporous absorbent resin is to separate triptonide, triptolide, Thunder God in tripterygium wilfordii Rattan B prime and 2- table triptolide.5-6BV eluent is concentrated and dried to obtain the relatively large triptolide of polarity and 2- table Triptolide mixture, HPLC testing result is as shown in figure 3, the two total content reaches 93.3%；The concentration of 8-9BV eluent is dry Dry to obtain the relatively medium triptonide of polarity, HPLC testing result is as shown in figure 4, content reaches 95.5%；11-12BV Eluent is concentrated and dried to obtain the relatively small triptolide of polarity, and HPLC testing result is as shown in figure 5, content reaches 97.1%.

By the optimization of a variety of different types of macroporous absorbent resins and eluting solvent, triptolide and 2- table tripterygium wilfordii B prime is difficult to separate since polarity is too similar.Triptonide under this condition can be with triptolide and 2- table tripterygium wilfordii B prime separation is also just to realize by optimization repeatedly, if not adding triethylamine, 5-6BV, 8-9BV eluent than eluting solvent The HPLC testing result of products therefrom is as shown in Figure 6,7, and triptonide and triptolide and 2- table triptolide are total to Elution.

4, high speed adverse current chromatogram (HSCCC) separating resulting

High speed adverse current chromatogram is different from the separation principle of macroporous absorbent resin, by optimizing repeatedly, triptolide and 2- Table triptolide is separated under the above conditions, and chromatogram is as shown in Figure 8.Fig. 9 is not add glacial acetic acid in dicyandiamide solution Separating effect figure, triptolide and 2- table triptolide co-elute.

5, the optimization process and result of HPLC analysis method

Triptolide and 2- table triptolide are a pair of of chiral isomer, and compound polarity is very much like.For this Kind chiral isomer, generallys use chiral chromatographic column and is separated, the conventional reverse-phase chromatographic column separating difficulty based on C18 filler Greatly.But chiral chromatographic column is extremely expensive, and especially enervated, the impurity component of sample to be analysed cannot be more, elution requirement Cannot too acutely, most cannot be neglected defect is poor repeatability (poor repeatability especially between different experiments room).Use hand Property chromatographic column exploitation triptolide and 2- table triptolide method belong to analysis method exploitation be easy, it is poor using stability, It is at high cost；Triptolide is developed using reverse-phase chromatographic column and 2- table triptolide method belongs to analysis method and develops hardly possible, is answered It is good, at low cost with stability.By optimizing repeatedly, above-mentioned HPLC separation parameter is obtained, it may be assumed that

Chromatographic column: moon rising sun Ultimate XB-C18 (5 μm, 4.6 × 250mm)

Mobile phase: methanol/acetonitrile/tetrahydrofuran/triethylamine/water=15/10/3/0.1/72 (volume ratio) isocratic elution

Detection wavelength: 220nm

Flow velocity: 1.0mL/min；

Sample volume: 10 μ L；

Liquid chromatograph: Agilent 1260.

Mobile phase is mixed using three kinds of organic solvents, as seen in Figure 10 the advantage of above-mentioned flow visualizing. Sample solution is 30% methanol solution containing 0.25mg/mL triptolide, 0.25mg/mL 2- table triptolide.Figure In 10 the mobile phase of A be methanol/acetonitrile/tetrahydrofuran/triethylamine/water=15/10/3/0.1/72, B mobile phase be methanol/ Acetonitrile/triethylamine/water=20/10/0.1/70, C mobile phase is methanol/acetonitrile/triethylamine/water=14/14/0.1/72.Figure The mobile phase polarity that A, B, C chromatogram use in 10 is close, but for triptolide and 2- table triptolide in C18 chromatography Reserve capability influences not identical, methanol/acetonitrile/tetrahydrofuran/triethylamine/water=15/10/3/0.1/72 discrimination on column Good, triptolide and 2- table triptolide reach baseline separation in C18 chromatographic column, which can be used for separating analysis thunder Public rattan B prime and 2- table triptolide.

The effect of above-described embodiment is specifically to introduce essentiality content of the invention, but those skilled in the art should know Protection scope of the present invention should not be confined to the specific embodiment by road.

Claims (3)

1. a kind of efficient liquid-phase chromatography method for separating triptolide and 2- table triptolide, it is characterised in that: anti-with C18 Phase silica gel be stationary phase, using volume ratio for 15:10:3:0.1:72 methanol/acetonitrile/tetrahydrofuran/triethylamine/water as flowing Phase；

Chromatographic column is moon rising sun Ultimate XB-C18, and packing material size is 5 μm, column length 250mm, internal diameter 4.6mm；

Flow rate of mobile phase is 1.0mL/min.

2. efficient liquid-phase chromatography method according to claim 1, it is characterised in that: Detection wavelength 220nm.

3. efficient liquid-phase chromatography method according to claim 1, it is characterised in that: sample volume is 10 μ L.