Dimension-Enhanced Ultra-High Performance Liquid Chromatography/Ion Mobility-Quadrupole Time-of-Flight Mass Spectrometry Combined with Intelligent Peak Annotation for the Rapid Characterization of the Multiple Components from Seeds of Descurainia sophia

The complex composition of herbal metabolites necessitates the development of powerful analytical techniques aimed to identify the bioactive components.The seeds of Descurainia sophia(SDS)are utilized in China as a cough and asthma relieving agent.Herein,a dimension-enhanced integral approach,by combining ultra-high performance liquid chromatography/ion mobility-quadrupole time-of-flight mass spectrometry(UHPLC/IMQTOF-MS)and intelligent peak annotation,was developed to rapidly characterize the multicomponents from SDS.Good chromatographic separation was achieved within 38 min on a UPLC CSH C18(2.1×100 mm,1.7μm)column which was eluted by 0.1%formic acid in water(water phase)and acetonitrile(organic phase).Collision-induced dissociation-MS^(2)data were acquired by the data-independent high-definition MS^(E)(HDMS^(E))in both the negative and positive electrospray ionization modes.A major components knockout strategy was applied to improve the characterization of those minor ingredients by enhancing the injection volume.Moreover,a self-built chemistry library was established,which could be matched by the UNIFI software enabling automatic peak annotation of the obtained HDMS^(E)data.As a result of applying the intelligent peak annotation workflows and further confirmation process,a total of 53 compounds were identified or tentatively characterized from the SDS,including 29 flavonoids,one uridine derivative,four glucosides,one lignin,one phenolic compound,and 17 others.Notably,four-dimensional information related to the structure(e.g.,retention time,collision cross section,MS^(1)and MS^(2)data)was obtained for each component by the developed integral approach,and the results would greatly benefit the quality control of SDS.

Rapid Quantitative Determination of Isoprene Monomer in Living Taraxacum kok-saghyz by Ultra-High Performance Liquid Chromatography Tandem Mass Spectrometry

Taraxacum kok-saghyz(TKS)is rich in natural rubber(NR),a natural organic macromolecular compound composed of cis-1,4-polyisoprene,and may become the second NR-bearing plant for biochemical engineering development.In this paper,a rapid and quantitative ultra-high performance liquid chromatography tandem mass spectrometry(UHPLCMS/MS)method was established for determination of macromolecular biosynthesis substrate(dimethylallyl pyrophosphate,DMAPP)and initiator(farnesyl pyrophosphate,FPP)contained in TKS.A Kromasil C18 chromatographic column was used for separation,and the multi-reaction monitoring mode(MRM)of triple quadrupole mass spectrometry was used for detection.Quantification was performed by external calibration method.The results showed that the limit of detection(LOD)and the limit of quantitation(LOQ)of DMAPP were 2.42μg/L and 7.26μg/L,respectively,and the LOQ and the LOD of FPP were 1.02μg/L and 3.05μg/L,respectively.At a concentration of 1—1000μg/L,both analytes had good determination coefficients(>0.999)of calibration curve.The recoveries of DMAPP and FPP were between 99.0%and 117.1%.In real samples detection,the contents of DMAPP and FPP in TKS samples were between 23.32—82.77μg/L and 12.03—85.67μg/L,respectively.Thus,this approach is a reliable method to quantify DMAPP and FPP in TKS.

Simultaneous Determination of Ultraviolet Absorbers and Antibacterial Agents in Textiles by Ultra-High Performance Liquid Chromatography/Orbitrap High Resolution Mass Spectrometry

This paper reported a new analytical method for the simultaneous determination of seven benzotriazole ultraviolet absorbers and seven antibacterial agents in textiles. After ultrasonic extraction for the textile samples in methanol, the solutions were analyzed by ultra-high performance liquid chromotagraphy/orbitrap high resolution mass spectrometry (UPLC/Orbitrap HRMS). It showed that a good chromatographic separation for these target compounds was achieved by a Hypersil GOLD column (100 mm × 2.1 mm × 1.9 μm) with a gradient elution of methanol and 0.1% aqueous formic acid solution (containing 0.5 mmol/L ammonium acetate). Triclosan and 4-chloro-3,5-dimethyl phenol (PCMX) were detected by the orbitrap HRMS in an electrospray ionization (ESI) negative mode while the other twelve target compounds were detected by orbitrap HRMS in ESI positive mode. Full scan experiment was performed over the range from m/z 100 to m/z 500. These target compounds were routinely detected with mass accuracy below 2 × 10-6 (2 ppm) at the optimized conditions. The results showed that the limits of detection (LODs) were in the range from 0.1 to 0.3 μg/kg. The blank samples were spiked at three levels and their average recoveries varied from 80.5% to 96.3% while the relative standard deviation (RSD) changed from 3.2% to 9.9%. The present method was also applied for the determination of those ultraviolet absorbers and antibacterial agents in the commercial textiles.

Determination of 19 polyphenolic compounds in tea by ultra-high performance liquid chromatography combined with quadrupole-time of flight mass spectrometry

A rapid method was presented for the determination of 19 polyphenols in tea by ultra-high performance liquid chromatography coupled with quadrupole-time of flight mass spectrometry(UPLC-Q-TOF MS).Tea samples were extracted by 50%(V/V)ethanol,then separated by Waters Acquity BEH C18 column using a binary solvent system composed of acetonitrile and water(0.1%formic acid)by gradient elution.The analytes were determined by Q-TOF MS in TOF MS and information dependent acquisition(IDA)-MS/MS mode.The results showed that mass accuracy error of the 19 polyphenols were lower than 5.0×10^(-6),good linear relationship was got in range of 0.2–500μg/L and correlation coefficient was higher than 0.9990.The LOD was in the range of 0.002–0.100 mg/kg and the LOQ was in the range of 0.004–0.200 mg/kg.Recovery of the method was in range of 78.4%–109.2%with spike levels of 0.004–2.000 mg/kg,relative standard deviations were lower than 10%.The method was simple,rapid and accurate.It could be used for the rapid screening and quantitative analysis of 19 polyphenols in tea.

Establishing a protein expression profile database for the normal human pituitary gland using two-dimensional high-performance liquid chromatography combined with LTQ-Orbitrap mass spectrometry

In this study, we selected adult normal pituitary gland tissues from six patients during operations for pituitary microadenomas via the transsphenoidal approach for extended normal pituitary tissue resection around the tumor, and analyzed the protein expression of human normal pituitary using two-dimensional high-performance liquid chromatography combined with LTQ-Orbitrap mass spectrometry proteomics technology. The ten most highly expressed proteins in normal human pituitary were： alpha 3 type VI collagen isoform 5 precursor （abundance among tall pituitary proteins 1.30%）, fibrinogen beta chain preproprotein （0.99%）, vimentin （0.73%）, prolactin （0.69%）, ATP synthase, H~ transporting and mitochondrial F1 complex beta subunit precursor （0.52%）, keratin I （0.49%）, growth hormone （0.45%）, carbonic anhydrase I （0.40%）, heat shock protein 90 kDa I （0.31%）, and annexin V （0.30%）. Based on the biological function classifications of these proteins, the top three categories by content were neuroendocrine proteins （abundance among all pituitary proteins, 40.1%）, catalytic and metabolic proteins （28.3%）, and cell signal transduction proteins （9.8%）. Based on cell positioning classification, the top three categories were cell organelle （24.5%） membrane （20.8%）, and cytoplasm （13.0%）. Based on biological process classification, the top three categories of proteins are involved in physiological processes （42.9%）, cellular processes （40.4%）, and regulation of biological processes （9.1%）. Our experimental findings indicate that a protein expression profile database of normal human pituitary can be precisely and efficiently established by proteomics technology.

基于双波长差示融合图谱的中药水红花子质量分析方法研究

该研究建立了以对照药材为基准物质定性和不依赖多种对照品定量的水红花子药材质量控制方法。采用高效液相色谱(HPLC)技术,结合双波长差示融合技术,以对照药材为基准物质建立水红花子的特征图谱,通过特征峰的标定明确药材真伪;对内标成分花旗松素进行准确定量,以花旗松素为基准计算各特征峰的相对含量,取“平均数-标准差”作为特征峰成分相对于内标物质化学成分的相对含量下限,依据相对含量下限明确水红花子药材的优劣。结果标定了水红花子特征图谱的10个共有特征峰,通过质谱(MS)鉴定出水红花子药材的7个成分,经对照品比对,指认特征峰中的3个化学成分分别为花旗松素、槲皮素和原儿茶酸,检测各批次药材中花旗松素的含量为0.5994%~0.7766%,规定了水红花子药材特征峰化学成分相对含量下限。该方法不依赖多种对照品,能清晰判断药材的真伪优劣,可为水红花子的质量控制提供参考。

基于HPLC指纹图谱和一测多评法的复方南板蓝根颗粒质量评价

采用高效液相色谱法(HPLC)对复方南板蓝根颗粒进行指纹图谱研究和相似度评价,并结合主成分分析(PCA)、正交偏最小二乘判别分析(OPLS-DA)进行统计学研究。在此基础上,以秦皮乙素为内参物,计算单咖啡酰酒石酸和菊苣酸的相对校正因子,并利用外标法(ESM)验证一测多评法(QAMS)的可靠性。10批复方南板蓝根颗粒的指纹图谱中共确定13个共有峰,相似度为0.942~0.996。PCA、OPLS-DA模式识别结果均表明,不同厂家样品间的成分存在一定差异。QAMS与ESM检测数据表明,两种算法的差异不大。所建立的指纹图谱结合统计学分析和一测多评法评价模式经济可靠、准确可行,可用于完善复方南板蓝根颗粒的质量标准监控。

珠江广州段水体中全/多氟烷基化合物的空间和季节分布特征

全/多氟烷基化合物(PFASs)普遍存在于各环境介质中,因具有生物累积性、持久性和潜在毒性,已成为全球最受关注的新污染物之一。城市河流污染来源复杂,受周边功能区和季节影响大,PFASs等新污染物的河流污染特征仍需进一步研究。该文选择珠江广州段为研究区域,在2020年7月采集40个水样,探讨水相样品中16种PFASs的空间分布和季节差异特征。珠江广州段水体中PFASs的总浓度为(77.7±38.3) ng/L(17.9~164 ng/L),干流中PFASs的浓度普遍高于支流,且浓度从城市附近的中上游到接近河口的下游大幅降低。雨季水体中PFASs的浓度较旱季显著降低,其组成也有一定变化,全氟辛酸(PFOA)在旱季和雨季中均占比最大,但雨季中全氟丁烷磺酸(PFBS)、全氟辛烷磺酸(PFOS)、全氟己酸(PFHxA)占比增加,PFOA和全氟丁酸(PFBA)占比减少,短链PFASs占比略有上升,70%的采样点短链PFASs在雨季的占比高于旱季。该研究为评估环境水体中PFASs污染提供了基础数据。

牦牛乳蛋白多态性对奶酪凝乳特性的影响

为了检测青海部分地区7家不同牧场牦牛乳κ-酪蛋白和αs1-酪蛋白基因多态性,作者分析了基因多态性对奶酪凝乳特性的影响。通过提取牦牛乳体细胞,采用限制性片段长度多态性聚合酶链式反应(polymerase chain reaction-restrition fragment length polymophism,PCR-RFLP)分析技术,对提取的DNA进行PCR扩增及酶切,对电泳条带进行基因分型;提取牦牛乳蛋白,采用高效液相色谱法(high performance liquid chromatography,HPLC)分析各样品与标准品色谱图,对出峰时间和出峰形状进行基因分型。利用流变仪测定不同基因型牦牛乳凝乳过程中流变特性,记录奶酪凝乳时间,计算奶酪得率。牦牛乳κ-酪蛋白基因有AA型、AB型和BB型3种基因型,3种基因型与凝乳特性的分析表明,在凝乳时间方面A等位基因为有利等位基因。牦牛乳αs1-酪蛋白存在AA型、AB型和BB型3种类型,3种基因型与凝乳特性的分析表明,在凝乳时间、奶酪得率、最大动力黏度和最大剪切速率方面B等位基因为有利等位基因。以上结果表明,青海7家牧场牦牛乳κ-酪蛋白和αs1-酪蛋白均存在基因多态性,κ-酪蛋白A等位基因和αs1-酪蛋白B等位基因是影响牦牛乳凝乳特性的主效基因。

苦豆子提取物指纹图谱建立及其抗炎作用谱效关系研究

目的:建立苦豆子总黄酮、总生物碱、总多糖配伍后的指纹图谱,研究不同配伍的化学成分与细胞活力以及抗炎之间的关联性,明确不同配伍对细胞活力的影响以及抗炎作用的物质基础。方法:采用高效液相色谱(HPLC)建立苦豆子总黄酮、总生物碱、总多糖配伍后的指纹图谱,以LPS刺激RAW264.7建立炎症细胞模型,对不同配伍组合对炎症细胞模型肿瘤坏死因子(TNF-α)水平以及以细胞活力进行检测,采用正交偏最小二乘判别分析(OPLS-DA)研究苦豆子化学成分与抗炎作用的谱效关系,筛选苦豆子抗炎作用的物质基础。结果:苦豆子生物碱类成分HPLC指纹图谱共有峰有8个,指认出5个共有峰,分别是槐果碱、槐定碱、苦参碱、氧化槐果碱和氧化苦参碱;黄酮类成分HPLC指纹图谱共有峰有15个,指认出3个共有峰,分别为槲皮素、紫铆因和芹菜素。相关性分析结果表明,槐果碱、槐定碱、氧化槐果碱和氧化苦参碱与脂多糖(LPS)诱导的小鼠单核巨噬细胞(RAW264.7)细胞释放的炎症因子TNF-α水平呈显著负相关,槲皮素与细胞活力呈负相关,紫铆因、芹菜素与细胞活力呈正相关,槐定碱、氧化苦参碱与细胞活力呈负相关,苦参碱、槐果碱、氧化槐果碱与细胞活力呈正相关。结论:槐果碱、槐定碱、氧化槐果碱和氧化苦参碱可能是苦豆子抗炎的物质基础,可为挖掘苦豆子的质量标志物以及药材质量控制提供参考。

石香薷水提物HPLC特征图谱的研究

石香薷药材用于精油提取后的水提液中仍含有大量生物活性物质,具有开发为饲料添加剂的价值,从而实现石香薷资源的综合利用。采用HPLC法,按照优化后的色谱条件对24批石香薷水提取物样品的化学成分进行测定分析。建立了不同产地石香薷水提物的HPLC特征图谱,共确定8个特征峰,经对照品比对确定特征峰5、7、8分别为野黄芩苷、迷迭香酸和黄芩素-7-甲醚,设定迷迭香酸为参照峰(S峰),特征峰1~8的相对保留时间的规定值分别为0.176、0.444、0.495、0.676、0.765、0.954、1.000、1.618,精密度、重复性和稳定性考察中各特征峰相对保留时间的相对标准偏差(RSD)分别为0.03%~0.57%、0.01%~0.31%、0.04%~0.15%,相对峰面积的RSD分别为0.88%~2.60%、1.39%~3.33%、1.95%~4.54%。该研究建立的HPLC特征图谱具有良好的精密度、稳定性和重复性,为石香薷水提物作为饲料添加剂开发的质量控制提供了依据。

基于超高效液相色谱-串联质谱检测三黄膏主要成分

目的:采用超高效液相色谱-串联质谱(Ultra Performance Liquid Chromatography-Tandem Mass Spectrometry,UPLC-MS/MS)对三黄膏的化学成分进行分析和鉴定。方法:取三黄膏50 mg加入甲醇内标提取液,涡旋后取上清液,用微孔滤膜过滤后准备检测。液相条件:Agilent SB-C18 1.8μm,2.1 mm×100 mm色谱柱,以超纯水(加入0.1%的甲酸)和乙腈(加入0.1%的甲酸)为流动相,梯度洗脱,流速0.36 mL/min,柱温40℃,进样量2μL。质谱条件:电喷雾离子源温度500℃;离子喷雾电压5 500 V(正离子模式)/–4 500 V(负离子模式);离子源气体I(GSI)、气体II(GSII)和气帘气分别设置为50、60和25 psi,碰撞诱导电离参数设置为高。三重四级杆扫描使用多反应检测(Multiple Reaction Monitoring,MRM)模式,并将碰撞气体(氮气)设置为中等。通过进一步的去簇电压(Declustering Potential,DP)和碰撞能(Collision Energy,CE)优化,完成了各个MRM离子对的DP和CE。根据每个时期内洗脱的代谢物,在每个时期监测一组特定的MRM离子对。采用电喷雾离子源,正负离子模式下采集数据。结果:共鉴定和推测出30个化合物,包括11种生物碱类、11种黄酮类、3种萜类、5种酚酸类。结论:通过UPLC-MS/MS鉴定的30种化合物与黄芩、黄连、黄柏主要化合物进行对比后发现,经过加工处理后的三黄膏保留了黄芩、黄连、黄柏的主要化学成分。为今后三黄膏的物质基础研究奠定了基础。

超高效液相色谱-四极杆-飞行时间质谱法鉴定黄大茶化学成分

黄大茶是中国特有的茶叶品种,具有降脂、降糖、改善代谢综合征的保健功效,但由于缺乏对黄大茶化学成分的研究,其功效性物质基础尚未被完全揭示。本研究以超高效液相色谱-四极杆-飞行时间质谱(UPLC-Q TOF/MS)作为检测工具,结合中性丢失和特征碎片离子等信息,对黄大茶的主要化学成分进行筛查和分析。选取Waters ACQUITY UPLC BEH C18色谱柱(100 mm×21 mm,17μm)进行分离,以01%甲酸水和乙腈作为流动相进行梯度洗脱,流速02 mL/min,进样量2μL,柱温35℃。在电喷雾电离(ESI)正/负离子模式下,利用全信息串联质谱(MSE)技术采集黄大茶样品溶液的质谱信息。通过查阅文献构建茶叶化学成分数据库,主要包括化学名称、分子式、结构式、准分子离子、碎片离子等信息,对自建数据库中的化学成分按照骨架结构进行归类;基于UPLC-Q TOF/MS测定结果,利用对照品对主要类别化合物的质谱裂解规律进行梳理,并总结其特征碎片离子和中性丢失特征;结合化合物的保留时间、准分子离子、碎片离子等信息对化合物结构进行表征。本研究共从黄大茶中鉴定出87个化学成分,包括10个儿茶素类、32个黄酮类、16个酚酸类、12个鞣质类、6个茶黄素类以及11个其他类别化合物,其中14个成分经对照品予以验证。该方法能够全面阐明黄大茶的主要化学成分,为黄大茶功效性成分发现、品质评价提供科学依据和数据支撑。

广陈皮高效液相色谱陈化特征图谱研究

【目的】建立广陈皮的高效液相色谱(HPLC)陈化特征图谱。【方法】采用HPLC-二极管阵列检测器(DAD)技术分析不同年份广陈皮之间的成分差异,测定各差异色谱峰的相对峰面积,通过聚类分析对其进行陈化等级分类,并通过中药色谱指纹图谱相似度评价系统(2012A版)进行评价。【结果】不同年份广陈皮被聚为Ⅰ、Ⅱ类两个不同的陈化等级,Ⅰ类(低陈化等级)广陈皮的相似度为0.708~0.957,Ⅱ类(高陈化等级)广陈皮的相似度为0.734~0.976,且两者之间的相似度均低于0.6。建立的特征图谱中存在9个差异色谱峰;Ⅱ类广陈皮的对照特征图谱T2可视为其陈化特征图谱,其中1~4号峰、9号峰为陈化特征峰。【结论】建立的广陈皮陈化特征图谱操作简单,具有良好的重复性与可靠性,可用于不同年份广陈皮的质量评价。

赤芝中腺苷和尿苷HPLC指纹图谱及含量分析

采用指纹图谱对赤芝水溶性成分中的腺苷和尿苷进行检测及含量测定,寻找不同来源孢子粉和子实体的含量变化规律,结果表明,不同来源和处理的灵芝粉和孢子粉在指纹图谱上有明显差异。赤芝菌盖中尿苷含量为0.072~0.849 mg·g^(-1),菌柄中尿苷含量为0.056~0.302 mg·g^(-1),破壁孢子粉中尿苷含量为0.032~0.089 mg·g^(-1);赤芝菌盖中腺苷含量为0.019~0.118 mg·g^(-1),菌柄中腺苷含量为0.005~0.024 mg·g^(-1),破壁孢子粉中腺苷含量为0.024~0.107 mg·g^(-1);同品种不同潮次采收的未破壁孢子粉主要成分含量无较大差异;同一品种的破壁孢子粉和未破壁孢子粉之间也无明显差异,但同一品种不同批次的赤芝中腺苷和尿苷含量差异显著。因此,可利用高效液相色谱法指纹图谱在8.5~20.0 min的区域内破壁孢子粉只有一个峰鉴别出破壁孢子粉,利用尿苷和腺苷的含量鉴别孢子粉中是否含有灵芝粉。

不同产地广防风HPLC指纹图谱及抗氧化降血糖谱效关系研究

建立广防风药材的HPLC指纹图谱并探究其与降血糖、抗氧化活性的谱效关系,为广防风的质量评价提供依据。采用HPLC法建立10批广防风特征指纹图谱,《中药色谱指纹图谱相似度评价系统》(2012版)进行相似度评价,与对照品比对进行共有峰指认,SPSS 25.0进行聚类分析和主成分分析。以DPPH法、ABTS法评价抗氧化活性,pNPG法评价降血糖活性,运用灰色关联分析、双变量相关分析进行谱效关系研究。建立了10批广防风药材的HPLC指纹图谱,相似度为0.767~1.000,标定21个共有峰,指认了6个成分,10批广防风6个成分含量差异显著,10批广防风聚为3类,主成分分析得到6个主要因子。10批广防风均具有体外抗氧化和降血糖活性。灰色关联度显示21个共有峰与清除DPPH、ABTS+自由基和抑制α-葡萄糖苷酶活性关联度均大于0.731。双变量相关性分析显示峰3、峰17与DPPH自由基清除活性呈显著正相关,峰1、峰4与ABTS+自由基清除能力呈显著正相关,峰1、峰4、峰11(毛蕊花糖苷)与α-葡萄糖苷酶抑制活性呈显著正相关。该方法能有效分析不同产地广防风药材的质量,为广防风抗氧化和降血糖药效物质基础筛选和质量评价提供依据。

高效液相色谱法对长链烷基芳烃的组分分析研究

烷基化芳烃作为第四代合成油系列产物,因其性能优异而受到广泛关注,其中长链烷基芳烃由于碳数较大、沸点较高而难以气化、相对成分较为复杂,给组分分析带来很大困难。利用高效液相色谱法对长链烷基芳烃的各组分进行了分析,分别探讨了紫外检测波长、流速以及流动相的极性等参数对色谱分析结果的影响,并总结出一种适于长链烷基芳烃组分分析的方法。研究结果可为分析长链烷基芳烃相关产品提供一定的理论指导。

紫外可见-光谱库在农药除草剂隐性成分排查中的应用

通过高效液相色谱法,建立了113种常规除草剂的标准紫外-可见光谱图库,检测除草剂中的隐性成分。以乙腈磷酸水为流动相的梯度洗脱对除草剂隐性成分进行定性分析。通过光谱库对2个农药除草剂进行了隐性成分鉴定,检出了敌稗、噁唑酰草胺和2甲4氯3种隐性成分。此方法能够快速准确的查出除草剂中添加的隐性成分,特征性和专属性很强,能够克服保留时间定性时容易造成假阳性的结果;该方法操作简单、检测效率高、时间短和成本低,适合于农药分析人员。

UPLC-MS/MS法测定环泊酚血药浓度

目的:采用超高效液相色谱-串联质谱(UPLC-MS/MS)建立测定环泊酚血药浓度的方法并用于临床检测。方法:血浆样品经甲醇沉淀蛋白后,采用UPLC-MS/MS检测。色谱柱为Phenomenex SynergiTM Fusion-RP C_(18)(50 mm×2 mm,4μm),流动相由甲醇-水组成(梯度洗脱),柱温为40℃,流速为0.3 mL·min^(-1),进样体积10μL;电喷雾离子源选择负离子模式扫描,被检测物环泊酚离子对为203.2→175.1 m/z,同位素内标HSK23287离子对为209.3→181.3 m/z。采用本法测定重症监护患者体内环泊酚的血药浓度。结果:环泊酚血药浓度检测的线性范围为0.0050~5.0μg·mL^(-1),定量下限为0.0050μg·mL^(-1),日内、日间精密度RSD均小于10%,准确度为95.7%~98.1%,基质效应为97.1%~102.6%,萃取回收率为97.2%~99.6%。4例患者体内环泊酚的血药浓度为0.2803~0.7983μg·mL^(-1),平均(0.4847±0.1714)μg·mL^(-1)。结论:建立的环泊酚UPLC-MS/MS分析方法专属性及精密度良好、灵敏度及准确度高,可用于测定患者体内环泊酚的血药浓度。

氮芥与DNA体外加合物及其质谱裂解规律

氮芥作为两用物质,不仅是禁止化学武器公约清单物,其衍生物至今仍是临床化疗药物。该文应用高效液相色谱-四极杆静电场轨道阱高分辨质谱法分析并鉴定了3种典型氮芥(HN1、HN2、HN3)分别与4种碱基、4种脱氧核糖核苷、4种脱氧核糖核苷酸和鲑鱼精DNA孵育后形成的加合产物。所有39个孵育体系中的HN-DNA加合产物经色谱分离,采用Full MS/dd-MS2模式进行数据采集获得其质谱特征信息。结果表明,在各孵育体系中均可鉴定到3种氮芥与鸟嘌呤、腺嘌呤和胞嘧啶特定碱基位点形成的单加合产物,并可鉴定到其与鸟嘌呤或腺嘌呤形成的双加合产物。在碱基孵育体系中虽可检测到3种氮芥与胸腺嘧啶形成的单加合产物,但在鲑鱼精DNA中并未检测到,表明其并非DNA的显著加合产物。通过探究各加合物的质谱裂解规律和特征加合离子,优化并给出了鉴定的系列DNA加合物的质谱多反应监测离子对,为氮芥暴露潜在生物标志物的鉴定和定量分析提供了重要的技术支撑,为复杂生物样品中氮芥DNA加合物的结构分析、准确溯源以及快速定量奠定了基础。