酸枣仁为鼠李科植物酸枣Ziziphus jujuba Mill.var.spinosa(Bunge)Hu ex H.F.Chou的干燥成熟种子,其分为种皮、种仁两个部位,比较研究酸枣仁不同部位化学成分组成及相对含量可为合理开发利用中药酸枣仁资源提供理论依据。基于超高效液...酸枣仁为鼠李科植物酸枣Ziziphus jujuba Mill.var.spinosa(Bunge)Hu ex H.F.Chou的干燥成熟种子,其分为种皮、种仁两个部位,比较研究酸枣仁不同部位化学成分组成及相对含量可为合理开发利用中药酸枣仁资源提供理论依据。基于超高效液相色谱-四极杆飞行时间质谱(UPLC-Q-TOF/MS)技术,从种皮、种仁中共鉴定出57个化学成分。结合主成分分析(PCA)和正交偏最小二乘法判别分析(OPLS-DA)对两者进行差异成分研究,以变量投影重要度(VIP)值>5为标准,筛选了差异成分17个,其中白桦脂酸、桦木酮酸、麦珠子酸和酸枣仁皂苷Ⅰ主要存在于种皮部位,斯皮诺素、酸枣仁皂苷A和6-阿魏酰斯皮诺素等13个化合物主要存在于种仁部位。通过超高效液相色谱-电雾式检测器(UPLC-CAD)结合反梯度补偿技术,建立半定量液相色谱指纹图谱,考察了6个不同结构类型的代表成分的响应一致性,其不同浓度下平均响应因子间的RSD值为7.04%,各化合物响应一致性良好,可用于酸枣仁的半定量表征分析;结果表明:种皮部位主要成分为白桦脂酸和油酸,其中白桦脂酸的含量约是种仁的7倍;种仁部位主要成分为斯皮诺素、酸枣仁皂苷A、亚油酸、白桦脂酸和油酸,其中斯皮诺素、酸枣仁皂苷A的含量分别是种皮的18倍和24倍。综上,本研究阐明了酸枣仁种皮、种仁的化学成分差异,明确了酸枣仁两个部位中各自的主要成分及其相对含量,为酸枣仁不同部位合理开发和利用奠定了基础。展开更多
To better understand the seasonal characteristics of urban organic aerosol(OA)in the North China Plain(NCP),PM2.5 samples in the urban atmosphere of Liaocheng were collected and analyzed.The molecular distribution of ...To better understand the seasonal characteristics of urban organic aerosol(OA)in the North China Plain(NCP),PM2.5 samples in the urban atmosphere of Liaocheng were collected and analyzed.The molecular distribution of the organic markers in the urban atmosphere of Liaocheng reveals that n-alkanes(39.3%)was the most abundant species all year round,followed by saccharides(28.2%),phthalic acids(Ph,20.8%),biogenic secondary organic aerosol(BSOA)tracers(9.4%),and polycyclic aromatic hydrocarbon(PAHs,2.3%).PM2.5,organic carbon(OC),elemental carbon(EC),and primary organic markers exhibit the highest concentrations in winter,due largely to the increased biomass burning and coal combustion for house heating in local and surrounding regions.However,the concentration and relative abundance of BSOA are significantly higher in summer than other seasons,induced by the more favorable meteoro-logical conditions that would promote the emissions of biogenic volatile organic compounds(BVOCs)and the secondary production of BSOA.The ratios of OC/EC and 3-methyl-1,2,3-butanetricarboxylic acid to cis-pinic acid plus cis-pinonic acid(MBTCA/(PA+PNA)are higher in the warm seasons than those in the cold seasons,indicating that the oxidation of OA is sensitive to air temperature.Compared to 2017,the concentration level of PAHs during wintertime decreased by 40.8%,confirming that the stringent regulation of coal burning is effective.The highest concentration of high molecular weight(HMW)n-alkanes and three anhydrosugars in winter,and the close correlation of levoglucosan with HMW n-al-kanes suggests that the impact of biomass burning was more significant in winter.The same seasonal characteristic of the ratios of high-/low-NO_(x) products with NO_(x) and the strong correlation of high-/low-NO_(x) products with levoglucosan indicate that the formation of isoprene SOA(SOA1)tracers was signif-icantly influenced by anthropogenic emissions.The molecular compositions,the distributions of fire spots,backward trajectories of air masses,and correlation analysis suggest that air pollution events in spring were primarily resulted from biomass burning and secondary oxidation,while pollution events in winter were largely driven by the increased combustion sources,and promoted aqueous secondary formation.Our results suggest that the reduction of biomass and coal combustion should be taken into account to improve the urban air quality in the NCP.展开更多
AIM: Variation in structure-related components in plant products prompted the trend to establish methods, using multiple or total analog analysis, for their effective quality control. However, the general use of routi...AIM: Variation in structure-related components in plant products prompted the trend to establish methods, using multiple or total analog analysis, for their effective quality control. However, the general use of routine quality control is restricted by the limited availability of reference substances. Using an easily available single marker as a reference standard to determine multiple or total analogs should be a practical option. METHOD: In this study, the Ultra-HPLC method was used for the baseline separation of the main components in ginseng extracts. Using a plant chemical component database, ginsenosides in ginseng extracts were identified by Ultra-HPLC-MS analysis. The charged aerosol detection(CAD) system with post-column compensation of the gradient generates a similar response for identical amounts of different analytes, and thus, the content of each ginsenoside in ginseng extracts was determined by comparing the analyte peak area with the reference standard(determination of total analogs by single marker, DTSM). The total ginsenoside content was determined by the summation of reference standard and other ginsenoside components. RESULTS: The results showed that DTSM approaches were available for the determination of total ginsenosides in a high purity ginseng extract because of the removal of impurities. In contrast, DTSM approaches might be suitable for determination of multiple ginsenosides without interference from impurities in the crude ginseng extract. CONCLUSION: Future practical studies similar to the present study should be conducted to verify that DTSM approaches based on CAD with post-column inverse gradient for uniform response are ideal for the quality control of plant products.展开更多
文摘酸枣仁为鼠李科植物酸枣Ziziphus jujuba Mill.var.spinosa(Bunge)Hu ex H.F.Chou的干燥成熟种子,其分为种皮、种仁两个部位,比较研究酸枣仁不同部位化学成分组成及相对含量可为合理开发利用中药酸枣仁资源提供理论依据。基于超高效液相色谱-四极杆飞行时间质谱(UPLC-Q-TOF/MS)技术,从种皮、种仁中共鉴定出57个化学成分。结合主成分分析(PCA)和正交偏最小二乘法判别分析(OPLS-DA)对两者进行差异成分研究,以变量投影重要度(VIP)值>5为标准,筛选了差异成分17个,其中白桦脂酸、桦木酮酸、麦珠子酸和酸枣仁皂苷Ⅰ主要存在于种皮部位,斯皮诺素、酸枣仁皂苷A和6-阿魏酰斯皮诺素等13个化合物主要存在于种仁部位。通过超高效液相色谱-电雾式检测器(UPLC-CAD)结合反梯度补偿技术,建立半定量液相色谱指纹图谱,考察了6个不同结构类型的代表成分的响应一致性,其不同浓度下平均响应因子间的RSD值为7.04%,各化合物响应一致性良好,可用于酸枣仁的半定量表征分析;结果表明:种皮部位主要成分为白桦脂酸和油酸,其中白桦脂酸的含量约是种仁的7倍;种仁部位主要成分为斯皮诺素、酸枣仁皂苷A、亚油酸、白桦脂酸和油酸,其中斯皮诺素、酸枣仁皂苷A的含量分别是种皮的18倍和24倍。综上,本研究阐明了酸枣仁种皮、种仁的化学成分差异,明确了酸枣仁两个部位中各自的主要成分及其相对含量,为酸枣仁不同部位合理开发和利用奠定了基础。
基金supported by the National Natural Science Foundation of China(Grant No.42177083)the Natural Science Foundation of Shandong Province(Grant No.ZR2020MD113)the Open Funds of State Key Laboratory of Loess and Quaternary Geology,Institute of Earth Environment,Chinese Academy of Sciences(Grant No.SKLLOG 2020).
文摘To better understand the seasonal characteristics of urban organic aerosol(OA)in the North China Plain(NCP),PM2.5 samples in the urban atmosphere of Liaocheng were collected and analyzed.The molecular distribution of the organic markers in the urban atmosphere of Liaocheng reveals that n-alkanes(39.3%)was the most abundant species all year round,followed by saccharides(28.2%),phthalic acids(Ph,20.8%),biogenic secondary organic aerosol(BSOA)tracers(9.4%),and polycyclic aromatic hydrocarbon(PAHs,2.3%).PM2.5,organic carbon(OC),elemental carbon(EC),and primary organic markers exhibit the highest concentrations in winter,due largely to the increased biomass burning and coal combustion for house heating in local and surrounding regions.However,the concentration and relative abundance of BSOA are significantly higher in summer than other seasons,induced by the more favorable meteoro-logical conditions that would promote the emissions of biogenic volatile organic compounds(BVOCs)and the secondary production of BSOA.The ratios of OC/EC and 3-methyl-1,2,3-butanetricarboxylic acid to cis-pinic acid plus cis-pinonic acid(MBTCA/(PA+PNA)are higher in the warm seasons than those in the cold seasons,indicating that the oxidation of OA is sensitive to air temperature.Compared to 2017,the concentration level of PAHs during wintertime decreased by 40.8%,confirming that the stringent regulation of coal burning is effective.The highest concentration of high molecular weight(HMW)n-alkanes and three anhydrosugars in winter,and the close correlation of levoglucosan with HMW n-al-kanes suggests that the impact of biomass burning was more significant in winter.The same seasonal characteristic of the ratios of high-/low-NO_(x) products with NO_(x) and the strong correlation of high-/low-NO_(x) products with levoglucosan indicate that the formation of isoprene SOA(SOA1)tracers was signif-icantly influenced by anthropogenic emissions.The molecular compositions,the distributions of fire spots,backward trajectories of air masses,and correlation analysis suggest that air pollution events in spring were primarily resulted from biomass burning and secondary oxidation,while pollution events in winter were largely driven by the increased combustion sources,and promoted aqueous secondary formation.Our results suggest that the reduction of biomass and coal combustion should be taken into account to improve the urban air quality in the NCP.
基金supported by the National Natural Science Foundation of China(81303246)the Jiangsu Provincial Natural Science Foundation of China(BK2011815)+1 种基金the ‘Qing Lan’ Project from Jiangsu Provincial Framework Teacher Support Schemethe Projects of priority-discipline for colleges and universities of Jiangsu Province
文摘AIM: Variation in structure-related components in plant products prompted the trend to establish methods, using multiple or total analog analysis, for their effective quality control. However, the general use of routine quality control is restricted by the limited availability of reference substances. Using an easily available single marker as a reference standard to determine multiple or total analogs should be a practical option. METHOD: In this study, the Ultra-HPLC method was used for the baseline separation of the main components in ginseng extracts. Using a plant chemical component database, ginsenosides in ginseng extracts were identified by Ultra-HPLC-MS analysis. The charged aerosol detection(CAD) system with post-column compensation of the gradient generates a similar response for identical amounts of different analytes, and thus, the content of each ginsenoside in ginseng extracts was determined by comparing the analyte peak area with the reference standard(determination of total analogs by single marker, DTSM). The total ginsenoside content was determined by the summation of reference standard and other ginsenoside components. RESULTS: The results showed that DTSM approaches were available for the determination of total ginsenosides in a high purity ginseng extract because of the removal of impurities. In contrast, DTSM approaches might be suitable for determination of multiple ginsenosides without interference from impurities in the crude ginseng extract. CONCLUSION: Future practical studies similar to the present study should be conducted to verify that DTSM approaches based on CAD with post-column inverse gradient for uniform response are ideal for the quality control of plant products.