柱前衍生高效液相色谱法测定二乙醇胺脱氢产物亚氨基二乙酸和甘氨酸

以对甲苯磺酰氯(PTSC)为衍生剂,建立了柱前衍生高效液相色谱(HPLC)测定二乙醇胺脱氢产物中亚氨基二乙酸(IDA)和甘氨酸(Gly)含量的分析方法。IDA和Gly与衍生剂在碱性(pH 11)条件下于45℃反应15 min,进行柱前衍生,并利用高效液相色谱-质谱对衍生产物进行定性分析。衍生化产物采用VP-ODS色谱柱(200 mm×4.6 mm,5μm)分离,以0.03 mol/L醋酸铵溶液(pH 5.5)为流动相A、乙腈为流动相B(体积比为87∶13),进行等度洗脱,流速为1 mL/min,并采用配有紫外检测器的高效液相色谱仪测定,检测波长为235 nm。该法在IDA质量浓度为900~2 100 mg/L、Gly质量浓度为20~100 mg/L的范围内线性关系良好,相关系数(R2)均大于0.999。IDA和Gly的检出限(LOD)分别为0.089 7 mg/L和0.026 2 mg/L,加标回收率分别为98.7%~99.3%和98.0%~99.5%,相对标准偏差(RSD)分别为0.89%~1.23%和0.95%~1.11%(n=3)。该法具有反应条件温和、准确性高的特点,可用于工艺生产中IDA和Gly含量的测定。     

柱前衍生高效液相色谱法检测加巴喷丁衍生化条件的研究

采用紫外衍生剂对甲氧基苯磺酰氯(MOBS–Cl)对加巴喷丁进行衍生反应,建立了一种柱前衍生测定加巴喷丁的新方法。最佳衍生化条件:对甲氧基苯磺酰氯与加巴喷丁的质量比大于7.5∶1,于50℃水浴中反应30 min。以0.05 mol/L Na2HPO4缓冲液(pH 10.0)–甲醇混合液为流动相,分析柱为反相ODS柱(150 mm×4.6 mm,5μm),柱温为室温,流速为0.8 mL/min,检测波长为240 nm。加巴喷丁溶液质量浓度在1~100 mg/L范围内与色谱峰面积线性关系良好,线性方程为A=24.5667c+12.3025,相关系数r=0.9999,测定结果的相对标准偏差(RSD)为0.56%,加巴喷丁的检测下限为0.017μg/g。     

柱前衍生高效液相色谱-荧光检测法测定水稻中7种巯基化合物

建立了水稻中半胱氨酸(Cys)、谷胱甘肽(GSH)和植物螯合肽(phytochelatin, PC:PC₂、PC₃、PC₄、PC₅、PC₆)7种巯基化合物的柱前衍生高效液相色谱-荧光检测分析方法.样品经0.1%三氟乙酸(TFA)(含6.3 mmol/L二乙烯三胺五乙酸(DTPA))超声提取,然后以单溴二胺(mBrB)为衍生剂在pH 8.0的4-羟乙基哌嗪丙磺酸(HEPPS)缓冲溶液中衍生化.采用的色谱分离柱为Agilent Eclipse plus C_l8柱,流动相为0.1%TFA(pH 2.5)和100%乙腈(ACN),梯度洗脱,流速为0.8 mL/min.荧光检测的激发波长和发射波长分别为380 nm和470 nm.结果表明,7种巯基化合物在0.7~100.0 mg/L范围内,峰面积与质量浓度之间的线性关系良好(r²≥0.9991);检出限为0.03~0.20 mg/L;加标回收率为89.26%~99.42%,相对标准偏差为2.05%~5.87%.该方法准确、灵敏度高、重现性好,为水稻中巯基化合物的研究提供了检测手段.     

动物组织中金霉素残留测定的高效液相色谱柱后衍生反应研究

建立了动物组织中金霉素残留测定的高效液相色谱柱后衍生法,研究了镁离子和草酸体系对金霉素荧光强度的影响。结果表明,镁离子浓度和草酸浓度为1∶1.2时,金霉素的荧光强度最强。动物组织样品以5%高氯酸提取,正己烷脱脂,C18净化,Hy-persil ODS C18(250×4.6 mm,5μm)分离,流动相为甲醇∶0.05 mol/L草酸=80∶20(V/V),流速为0.7 mL/min,柱后0.05 mol/L乙酸镁衍生,流速为0.1 mL/min,紫外检测器和荧光检测器同时测定,提高了金霉素残留定量灵敏度。紫外检测波长365nm,荧光检测波长eλx=360 nm,eλm=520 nm。     

加压毛细管电色谱-激光诱导荧光法检测4种黄曲霉毒素

建立了三氟乙酸( TFA)柱前衍生,加压毛细管电色谱-激光诱导荧光( pCEC-LIF)快速测定黄曲霉毒素B1、B2、G1、G2方法。使用粒径1.8μm的C18毛细管色谱柱,以甲醇-水(45：55, V/V,含0.05%甲酸)为流动相,泵流速为0.05 mL/min,分离电压为15 kV,激发波长为375 nm,发射波长为450 nm,黄曲霉毒素B1, B2, G1, G2达到基线分离。各组分的检出限(S/N=3)分别为0.02,0.016,0.008和0.01μg/L,在0.1~10μg/L,0.1~10μg/L,0.1~3.0μg/L,0.1~3.0μg/L 范围内分别呈线性相关,相关系数 R2分别为0.9999,1.0000,0.9995,0.9997。将本方法应用于花生酱的分析,加标回收率在90.0%~112.0%之间,RSD在0.5%~1.9%之间。     

邻硝基苯磺酰氯柱前衍生-高效液相色谱法分析DL-丝氨酸

以邻硝基苯磺酰氯(NBSC)为衍生化试剂,建立了柱前衍生DL-丝氨酸的反相高效液相色谱紫外检测的方法,对工业成品DL-丝氨酸及其杂质进行分离和测定,并对衍生化条件进行了优化。最佳反应条件为:DL-丝氨酸与NBSC的摩尔比为1:4,衍生温度为室温,反应时间为10 min,pH 9硼砂缓冲溶液。色谱采用Hedera-C18柱,流速0.7 mL/min,柱温为室温,检测波长为228 nm,流动相为体积比15:85的乙腈和磷酸盐缓冲液(pH 5.8)。实验结果表明,用0.1 mol/L的HCl溶液溶解的DL-丝氨酸浓度在5～100 mmol/L范围内线性关系良好,相关系数(r2)为0.9994,加标回收率94.0%～100.6%,DL-丝氨酸衍生产物峰面积的相对标准偏差为0.026%,检出限为0.3 mmol/L。该方法可以作为批量生产DL-丝氨酸产品质量控制的方法。     

柱前衍生高效液相色谱法测量碳酰肼的含量

建立了苯甲醛衍生测量碳酰肼产品纯度的高效液相色谱法。研究了流动相中pH值、流动相组成、衍生反应时间等因素对测定的影响。采用KromasilC18(250mm×4.6mm,5μm)色谱柱,流动相为乙腈5mmol/L磷酸盐缓冲溶液,流速1mL/min,检测波长310nm,在8min内可完成分析。碳酰肼与苯甲醛在室温下衍生30min后可直接测量。此方法操作简单、快速;方法检出限为0.13mg/L;回收率为105%;RSD<1%,用于碳酰肼产品的纯度分析,结果令人满意。     

固相萃取/反相高效液相色谱法对血清中胰岛素的测定

采用固相萃取纯化血清样品,荧光胺柱前衍生,建立了反相高效液相色谱/荧光检测血清中胰岛素的方法.色谱条件:LunaC5柱(100 mm×4.6 mm,5 μm)分离,流动相为乙腈-Tris缓冲溶液(10 mmol/L,pH 8.5)梯度洗脱,流速:1 mL/min.激发波长(λex)273 nm,发射波长(λem)476 nm,进样量20 μL.结果表明:胰岛素在10 ～800 μg/L范围内峰面积和质量浓度呈良好的线性关系,相关系数r为0.997 1;检出限为5 μg/L.日内、日间精密度分别为1.5%、1.0%,回收率为92%.     

高效液相色谱-荧光检测器法测定2-噁唑烷酮的含量

建立一种利用高效液相色谱结合荧光检测器准确测定2-噁唑烷酮含量的方法。样品中的2-噁唑烷酮和占吨氢醇在60℃的条件下衍生70 min后,直接进样分析。采用月旭XB-C18色谱柱,流动相为0.02 mol/L乙酸钠水溶液和乙腈,检测器波长为λex=213 nm,λem=308 nm,流速1.0 mL/min,柱温35℃的条件下。2-噁唑烷酮浓度在0.5~50.0mg/mL时,线性关系良好(R2=0.9995),检测限和定量限分别为0.005 mg/L、0.016 mg/L。该方法准确、灵敏、快速,适用于2-噁唑烷酮含量的检测。     

高效液相色谱-荧光检测法测定环境水中的苯胺和苯酚

建立了用高效液相色谱荧光检测法同时测定环境水中苯胺和苯酚的分析方法。色谱柱为EclipseXDB C8(4.6mmi.d.×150mm,5μm),流动相为甲醇 磷酸盐缓冲液(0.1mol/L磷酸二氢钾 0 1mol/L磷酸氢二钠,pH6.87)V(甲醇)∶V(磷酸盐缓冲液)=50∶50,流速1 0mL/min,柱温25℃,检测波长0minλex/λem=230/340nm(测定苯胺),3.5minλex/λem=215/300nm(测定苯酚)。测定苯胺的线性范围0.2～120ng,r=0.9999,检出限0.01ng;测定苯酚的线性范围0.4～500ng,r=0.9998,检出限0.02ng,回收率98.1%～101.2%。该方法已用于对环境水中苯胺和苯酚的测定。     

膜基质免疫分析法同时检测玉米中伏马菌素B1和呕吐毒素

建立了基于聚偏氟乙烯膜(Polyvinylidene fluoride,PVDF)基质的直接竞争免疫分析法,同时检测玉米中的伏马菌素B1(Fumonisin B1,FB1)及呕吐毒素(Deoxynivalenol,DON)。PVDF膜用甲醇浸湿、激活,用移液器将FB1及DON全抗原点阵于相应的膜反应区,同时采用三聚氰氯法和高碘酸钠法分别制备抗FB1、抗DON的辣根过氧化酶(Horseradish peroxidase,HRP)标抗体(monoclonal antibody,McAb),以直接竞争免疫检测方法的模式实现同时检测玉米中的FB1及DON。该方法对于FB1和DON的检出限分别为2.5和50μg/L,样品前处理简单,检测时间15 min,可肉眼辨别结果,随机检测了30份市售玉米样品,并与市售ELISA试剂盒进行方法学比较,结果无明显差异。     

Development of a new analytical method for the determination of fumonisins B1 and B2 in food products based on high performance liquid chromatography and fluorimetric detection with post-column derivatization

A sensitive and selective analytical method was developed for the quantitative determination of fumonisins B(1) and B(2) in maize-based foods for direct human consumption. The method, based on high-performance liquid chromatography and fluorescence detection, presents a rapid and automated on-line post-column derivatization, performed with o-phtalaldehyde and N,N-dimethyl-2-mercaptoethylamine. Several factors affecting the separation and detection of fumonisins were investigated, including mobile phase composition, column features, derivatization agent flow-rate and both the excitation and the emission wavelengths. Optimal fluorescence detection was obtained by using a lambda(exc) of 343 nm and a lambda(em) of 445 nm. Under the optimized experimental conditions, a complete separation of fumonisins was obtained in less than 13 min by using a C(18) column and a gradient elution at 0.8 mL/min with methanol and 0.1M phosphate buffer at pH 3.15. The limits of detection for FB(1) and FB(2) were 4 and 5 microg/L corresponding to 5 and 6 microg/kg in matrix. Each fumonisin was determined in the range 40-320 microg/L that correspond to 50-400 microg/kg in matrix. The necessary requirements for accuracy, reproducibility and sensitivity were fulfilled and recovery values ranged from 87 to 94% for FB(1) and from 70 to 75% for FB(2) in cornflake samples at three fortification levels in the range 100-300 microg/kg. The potential of this method, combined with a simple clean-up procedure, was assessed by the measurements of FB(1) and FB(2) in maize-based products, such as maize flour, "polenta", tortillas and cookies.     

A reversed phase high performance liquid chromatography method for the determination of fumonisins B1 and B2 in food and feed using monolithic column and positive confirmation by liquid chromatography/tandem mass spectrometry

The development of a reversed phase high performance liquid chromatography fluorescence method for the determination of the mycotoxins fumonisin B(1) and fumonisin B(2) by using silica-based monolithic column is described. The samples were first extracted using acetonitrile:water (50:50, v/v) and purified by using a C(18) solid phase extraction-based clean-up column. Then, pre-column derivatization for the analyte using ortho-phthaldialdehyde in the presence of 2-mercaptoethanol was carried out. The developed method involved optimization of mobile phase composition using methanol and phosphate buffer, injection volume, temperature and flow rate. The liquid chromatographic separation was performed using a reversed phase Chromolith(?) RP-18e column (100 mm × 4.6 mm) at 30 °C and eluted with a mobile phase of a mixture of methanol and phosphate buffer pH 3.35 (78:22, v/v) at a flow rate of 1.0 mL min(-1). The fumonisins separation was achieved in about 4 min, compared to approximately 20 min by using a C(18) particle-packed column. The fluorescence excitation and emission were at 335 nm and 440 nm, respectively. The limits of detections were 0.01-0.04 μg g(-1) fumonisin B(1) and fumonisin B(2), respectively. Good recoveries were found for spiked samples (0.1, 0.5, 1.5 μg g(-1) fumonisins B(1) and B(2)), ranging from 84.0 to 106.0% for fumonisin B(1) and from 81.0 to 103.0% for fumonisin B(2). Fifty-three samples were analyzed including 39 food and feeds and 14 inoculated corn and rice. Results show that 12.8% of the food and feed samples were contaminated with fumonisin B(1) (range, 0.01-0.51 μg g(-1)) and fumonisin B(2) (0.05 μg g(-1)). The total fumonisins in these samples however, do not exceed the legal limits established by the European Union of 0.8 μg g(-1). Of the 14 inoculated samples, 57.1% contained fumonisin B(1) (0.16-41.0 μg g(-1)) and fumonisin B(2) (range, 0.22-50.0 μg g(-1)). Positive confirmation of selected samples was carried out using liquid chromatography-tandem mass spectrometry, using triple quadrupole analyzer and operated in the multiple reaction monitoring mode.     

Robotic automated clean-up for detection of fumonisins B1 and B2 in corn and corn-based feed by high-performance liquid chromatography

A high-performance liquid chromatography (HPLC) system with fluorescence detection and an automated on-line solid-phase extraction procedure for fumonisins B1 and B2 in corn and corn-based products is described. Different amounts of strong anion-exchange, C18 and end-capped C18 (C(18 ec)) silicas were tested for sample clean-up. Various HPLC parameters were analyzed. The best methodology was found to be extraction with acetonitrile-water and clean up on C(18 ec) disposable extraction cartridges. The system has the advantage of running in an unattended mode of operation and allows processing of 40 samples without system refuel, performing clean-up, o-phthaldialdehyde derivatization, injection and fumonisin detection by fluorescence detection linked to a computer integrator for automated data processing. Recoveries were performed with corn and corn-based feed samples (n=3) spiked with 0.1, 0.5, 1.0, 5.0 and 10 microg/g. Average recoveries for corn and corn-based feed were, respectively, 92.6 and 88.3% with relative standard deviations (RSDs) of 5.04 and 6.22%, for fumonisin B1 and 91.2 and 89.0% with RSDs of 5.84 and 7.88% for fumonisin B2. Detection limits (S/N=3) for corn and corn-based feed were approximately 0.03 microg/g for fumonisin B1 and 0.05 microg/g for fumonisin B2     

Evaluation of silica- and sepharose-based immunoaffinity sorbents for sample cleanup in determination of fumonisins B1 and B2 in corn products

Anti-fumonisin B1 polyclonal antibodies were isolated from the serum of rabbits, immobilized onto the surface of glutaraldehyde-activated silica or Sepharose CL-4B particles, and placed into empty small plastic solid-phase extraction cartridges. The immobilized antibodies were evaluated for their ability to retain fumonisin B1 and fumonisin B2. Cartridge capacity and elution conditions were determined, and the results were compared to those obtained with a commercially available cartridge. The cartridges, which were tested for their effectiveness to isolate the fumonisins from extracts of corn flour and nacho chips, detected fumonisins down to levels of about 20 ng/g. However, additional cleanup was required for detection at lower concentrations. With the use of a strong anion-exchange cartridge as a preliminary cleanup before immunoaffinity chromatography, the detection limit reached 2-5 ng/g in the products tested. The silica sorbent material exhibited strong interactions with the fumonisins, requiring acidified ethanol-water mixtures for elution and resulting in an additional degree of selectivity in isolating fumonisins from sample extracts. The silica-based immunoaffinity cartridges were successfully reused more than 10 times; the Sepharose-based cartridges were less robust. Liquid chromatography with fluorescence detection was used after prechromatographic derivatization with o-phthaldialdehyde-mercaptoethanol.     

Determination of fumonisins B1 and B2 in corn and corn flakes by liquid chromatography with immunoaffinity column cleanup: collaborative study.

A liquid chromatographic (LC) method for the determination of fumonisins B1 (FB1) and B2 (FB2) in corn and corn flakes was collaboratively studied by 23 laboratories, which analyzed 5 blind duplicate pairs of each matrix to establish the accuracy, repeatability, and reproducibility characteristics of the method. Fumonisin levels in the corn ranged from <0.05 (blank) to 1.41 microg/g for FB1 and from <0.05 to 0.56 microg/g for FB2, whereas in the corn flakes they ranged from <0.05 to 1.05 microg/g for FB1 and from <0.05 to 0.46 microg/g for FB2. The method involved double extraction with acetonitrile-methanol-water (25 + 25 + 50), cleanup through an immunoaffinity column, and LC determination of the fumonisins after derivatization with o-phthaldialdehyde. Relative standard deviations for the within-laboratory repeatability (RSDr) of the corn analyses ranged from 19 to 24% for FB1 and from 19 to 27% for FB2; for the corn flakes analyses, RSDr ranged from 9 to 21 % for FB1 and from 8 to 22% for FB2. Relative standard deviations for the between-laboratories reproducibility (RSDR) of the corn analyses ranged from 22 to 28% for FB1 and from 22 to 30% for the FB2; for corn flakes analyses, RSDR ranged from 27 to 32% for FB1 and from 26 to 35% for FB2. Mean recoveries of FB1 and FB2 from corn spiked with FB1 at 0.80 microg/g and with FB2 at 0.40 microg/g were 76 and 72%, respectively; for corn flakes spiked at the same levels recoveries were 110 and 97% for FB1 and FB2, respectively. HORRAT ratios for the analyses of corn ranged from 1.44 to 1.53 for FB1 and from 0.96 to 1.48 for FB2, whereas for corn flakes they ranged from 1.60 to 1.82 for FB1 and from 1.39 to 1.68 for FB2.     

Determination of type B fumonisin mycotoxins in maize and maize-based products by liquid chromatography/tandem mass spectrometry using a QqQlinear ion trap mass spectrometer

A sensitive liquid chromatography/tandem mass spectrometry (LC/MS/MS) method for determining the type B fumonisin mycotoxins in corn-based foodstuffs is described. Fumonisins FB1 and FB2 were extracted from a 1 g sample by homogenization with acetonitrile/water (75:25, v/v, 50 mmol/L formic acid, 25 mL final volume) and the extract was defatted on C18 phase. Volumes of 5 mL of crude extracts were cleaned up on Carbograph-4 cartridges. The final solution was analyzed by HPLC with electrospray ionization mass spectrometry in positive ion mode using multiple reaction monitoring with a QqQ linear ion trap mass spectrometer. Recoveries for spiked corn-based foodstuffs ranged from 91-105% (RSD% < or =8%), and method detection limits were < or =2 ng/g for FB1 and < or =1 ng/g for FB2. Two different spiking levels were tested (5000 and 100 ng/g for FB1, 1000 and 20 ng/g for FB2). Quantitation was achieved by an external calibration procedure using matrix-matched standards, with diclofenac added post-cleanup as internal standard for the LC/MS/MS analyses. Calibration curves showed linearity in the concentration range 0.005-5 ng/microL of final extract (0.992 < or = R2< or =0.995). Two other fumonisins, FB3 and FB4, were identified in naturally contaminated samples of corn meal using an information-dependent acquisition protocol that looped three experiments, including neutral loss scan, enhanced resolution scan, and enhanced product ion scan. FB3 and FB4 quantitation was estimated as peak area ratios relative to the FB2 response in view of the lack of both standards. This work also includes an application of the present LC/MS/MS method to some maize and maize-based product samples (corn meal, cornflakes and popcorn) collected from Italian stores. FB1 and FB2 contamination levels exceeding the European Union recommendation were found in 8 out of 15 corn meal samples.     

胶束电动毛细管色谱法同时测定复方化学消毒剂及日化产品中邻苯二甲醛、对氯间二甲基苯酚及三氯生

建立了邻苯二甲醛(OPA)、对氯间二甲基苯酚(PCMX)和三氯生3种杀菌剂同时分离测定的胶束电动毛细管色谱(MEKC)新方法。详细研究了影响上述3种杀菌剂同时分离与准确定量的因素: 如分离缓冲溶液的浓度及pH,十二烷基硫酸钠(SDS)浓度、样品缓冲溶液等。以40.2 cm (有效长度: 30 cm)×50 μm未涂层熔融石英毛细管为分离柱,20 mmol/L硼砂-80 mmol/L SDS(无需调pH)为分离缓冲溶液,2 mmol/L硼砂-8 mmol/L SDS (含体积分数为10%甲醇)为样品缓冲溶液,检测波长为214 nm。3种杀菌剂的校正峰面积的相对标准偏差(RSD)在1.1%～ 3.8%范围内,迁移时间的RSD均小于0.9%, OPA、PCMX和三氯生的检出限(LOD,信噪比为3)分别为4.0、0.4、0.4 mg/L,定量限(LOQ,信噪比为10)分别为12、1.2、1.2 mg/L,校正峰面积与相应的质量浓度分别在12～2 000 mg/L、1.2～200 mg/L和1.2～200 mg/L范围内具有良好的线性关系,相关系数分别为0.9994、0.9993和0.9995。该法前处理简单,可快速、准确地同时测定3种组分,非常适合常规实验室分析。     

Determination of fumonisins B1 and B2 in corn by liquid chromatography/mass spectrometry with immunoaffinity column cleanup: single-laboratory method validation

A single-laboratory method validation was conducted to establish the effectiveness of an immunoaffinity column cleanup procedure followed by liquid chromatography/mass spectrometry (LCIMS) for the determination of fumonisins B1 and B2 (FBI + FB2) in corn. The test portion is extracted with acetonitrile-methanol-water (25 + 25 + 50). The extract is filtered, diluted with phosphate-buffered saline solution, and applied to an immunoaffinity column. FB1 + FB2 are removed with methanol and directly determined by reversed-phase LC with MS detection using selected-ion monitoring of 2 characteristic ions in each case. Test portions of blank corn samples were spiked with a mixture of FB1 + FB2 to give total levels of 200 and 500 ng/g, respectively. Recoveries of both FB1 and FB2 from spiked samples averaged 90.4-101%. Based on results for spiked raw corn (triplicates at 2 levels), the relative standard deviation for repeatability ranged from 2.8 to 7.1%. The accuracy of the method was demonstrated by analysis of Food Analysis Performance Assessment Scheme (FAPAS) test material. The method was also applied to a small survey of processed corn products such as corn chips, cornflakes, and popcorn.