查看更多>>摘要:N-glycosylation is one of the major post-translational modifications, with significant effects on the mechanism of action, the efficacy, and the safety of antibody drugs or glycoproteins. With the growing application of therapeutic antibodies, routinely monitoring N-glycosylation becomes increasingly important during cell culture process development and quality control. However, the current pretreatment methods for N-glycan analysis are time-and labor-consuming. The purification procedure of enzymatically released glycans could also partly affect the accuracy of results due to its complexity. In this study, a rapid ultra-high performance liquid chromatography method based on magnetic bead extraction and 2-AB fluorescent labeling was developed and compared against three popular pretreatment methods for N-glycan profiling (two were solid phase extraction and the other was acetone precipitation). The method's repeatability results showed that magnetic bead extraction has higher precision (% relative standard deviation (RSD), 0.121.06%) than solid phase extraction (SPE) (%RSD, 0.38-8.02%) and acetone precipitation (%RSD, 0.42-8.58%). This robust pretreatment method also maximized the retention of some low abundance oligosaccharides, and may thus provide a rapid and high-throughput workflow option for N-Glycan analysis in the biopharmaceutical industry.
查看更多>>摘要:Lubricating oils are composed of base oils (> 85% v/v) and enriching additives (< 15% v/v). Three types of base oils may be distinguished: 1) traditional bases (obtained by low-volatile fractions from crude oil distillation refining), 2) synthetic bases (mainly poly-alpha-olefins, sometimes esters, especially succinic acid esters), 3) bases of natural origin (especially obtained from refined plant oils). The bases of natural origin are the only ones recommended for application when lubricating oil may be emitted to the environment (e.g. when the machine with an open cutting system is used). Group-type separation and analysis of group-type composition of base and lubricating oils are of significant importance in quality control and environmental monitoring. Due to the potentially wide range of polarity of the components of base and lubricating oils, group-type separation becomes a difficult separation problem. It is also a serious analytical problem due to the considerable diversity of physicochemical properties. The authors propose a new procedure for the separation and determination of the group-type composition of base and lubricating oils using thin-layer liquid chromatography in normal phase systems (abr. NP-TLC) on silica gel plates impregnated with berberine salt/in the coupling of thin-layer chromatography with flame ionization detection (abr. TLC-FID). A new, effective procedure of TLC plates impregnation with berberine sulphate was presented. The proposed procedure ensures the visualization of all groups of base oils. Extensive experimental research showed that a 2-step development procedure with application of n-hexane up to 100% height of development +15 min and further n-hexane: isopropanol: tri-fluoroacetic acid 96.25: 3: 0.75 (v: v: v) up to 75% height of development is advantageous for the group-type separation, both in TLC-FID and TLC.
查看更多>>摘要:Perfluorooctanoic acid (PFOA) and perfluorooctanesulfonic acid (PFOS) are synthetic chemicals that have been used in various industries and household products. These can easily accumulate in the human body, causing adverse effects on human health. In this study, a high-performance liquid chromatography-tandem mass spectrometry method was developed and validated for the simultaneous analysis of PFOA and linear PFOS in human serum. Owing to a lack of PFOA-and PFOS-free human serum, C-13(8)-PFOA and C-13(8)-PFOS were used as surrogate analytes for quantification. A sensitive and selective sample preparation method was developed and optimized by combining solid-phase extraction and protein precipitation method. The lower limit of quantification was 0.05 ng/mL, and the analytical response was linear up to 10 ng/mL for both PFOA and linear PFOS. Chromatographic separation of the linear PFOS from branched isomers was achieved within 5.5 min. The method was validated at various concentrations and afforded acceptable accuracy and precision values. After validation, the method was successfully applied to evaluate the exposure levels of PFOA and linear PFOS in the Korean population. The serum concentrations of PFOA and linear PFOS were 0.42-28.3 ng/mL and 0.81-57.6 ng/mL, respectively. The median concentration of linear PFOS was approximately 2.6-fold higher than that of PFOA. The concentration of PFOA was higher in women than men (p < 0.05) and that of linear PFOS was not significantly different between men and women. Therefore, a sensitive, selective, and reliable bioanalytical method was developed and validated. This method can potentially be applied to biomonitoring studies involving PFOA and linear PFOS.
NSTL
Elsevier