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Kiyohito Shimura Mayumi Tamura Tosifusa Toda Shin Yazawa Ken‐ichi Kasai 《Electrophoresis》2011,32(16):2188-2193
α1‐Acid glycoprotein (AGP) was previously shown to be a marker candidate of disease progression and prognosis of patients with malignancies by analysis of its glycoforms via lectins. Herein, affinity capillary electrophoresis of fluorescein‐labeled AGP using lectins with the aid of laser‐induced fluorescence detection was developed for quantitative evaluation of the fractional ratios of concanavalin A‐reactive or Aleuria aurantia lectin‐reactive AGP. Labeled AGP was applied at the anodic end of a fused‐silica capillary (50 μm id, 360 μm od, 27 cm long) coated with linear polyacryloyl‐β‐alanyl‐β‐alanine, and electrophoresis was carried out for about 10 min in 60 mM 3‐morpholinopropane‐1‐sulfonic acid‐NaOH buffer (pH 7.35). Addition of the lectins to the anode buffer resulted in the separation of lectin‐reactive glycoform peaks from lectin‐non‐reactive glycoform peaks. Quantification of the peak area of each group revealed that the percent of lectin‐reactive AGP is independent of a labeling ratio ranging from 0.4 to 1.5 mol fluorescein/mol AGP, i.e. the standard deviation of 0.5% for an average of 59.9% (n=3). In combination with a facile procedure for micro‐purification of AGP from serum, the present procedure, marking the reactivity of AGP with lectins, should be useful in determining the prognosis for a large number of patients with malignancies. 相似文献
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CE is a promising technique for the analysis of glycosylated proteins, especially at the intact level. In the present study, the utility of CE for the separation of protein glycoforms is developed by using methyl chitosan as capillary coating. Methyl chitosan, in contrast to the polymers commonly used for coating, bears different types of amine groups, allowing for tunable charge states for various applications. The addition of methyl chitosan in background electrolyte can modulate the EOF and improve the separation performance. The methyl chitosan-coated capillary provided good separation of acidic or basic glycosylated proteins. Five ribonuclease B glycoforms were resolved by CE in less than 18 min, and the profile was essentially in agreement with that obtained by MALDI-TOF MS. The recombinant human erythropoietin glycoforms were well separated within 9 min. The developed method shows a great potential in protein glycoform analysis. 相似文献
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Uçaktürk E 《Journal of separation science》2012,35(3):341-350
Therapeutic monoclonal antibodies (mAbs), immunoglobulins, have been efficiently used in the treatment of many diseases, such as cancer, inflammatory and cardiovascular diseases, and organ transplantation. mAbs are glycoprotein molecules undergoing posttranslational modifications. Glycosylation is one of the posttranslational modifications. Different glycoforms that are important for maintaining the potency of mAb drugs show various biological activities. Therefore, the profile of the glycans and glycosylation sites should be determined to produce safe, good quality, consistent mAb drugs for human use. For this reason, simple, robust, accurate, and reproducible analytical methods need to be developed. In this article, chromatographic methods for the analysis of the glycoforms on the glycosylation site and the glycans in mAb biopharmaceuticals have been evaluated. 相似文献
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Xiaojun Liu Yawei Wang Yang Tu Ziqi ZhuXiaogang Li Qingquan ZhangWenfeng Zhao Yuling LiHongwei Gai 《Analytica chimica acta》2015
Fast glycoform analysis is important for quality control of glycoproteins that account for over 40% of the approved biopharmaceuticals. Herein, we realized an Au nanoparticle-based lectin affinity chromatography (LAC) using simple standard laboratory equipment for fast glycoform analysis. Pisum sativum agglutinin (PA), a lectin derived from P. sativum, was covalently conjugated to Au nanoparticles via naturally formed carboxylic groups onto the surface of Au nanoparticles and amino groups of PA. Each model glycoprotein was separated into several fractions including the unbound, weakly bound, modestly bound, and strongly bound glycoforms based on affinity strength of the glycoform toward PA. A single run of Au nanoparticle-based LAC was finished within 18 min, which could be further decreased by centrifuging the mixture of the PA functionalized Au nanoparticles and the glycoproteins at a higher speed. To our knowledge, we are the first to use Au nanoparticles as LAC matrix. 相似文献
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Uroš Andjelković Ivan Gudelj Thomas Klarić Hannes Hinneburg Marijana Vinković Karlo Wittine Nebojša Dovezenski Dražen Vikić-Topić Gordan Lauc Zoran Vujčić Djuro Josić 《Electrophoresis》2021,42(24):2626-2636
Invertases are glycosidases applied for synthesis of alkyl glycosides that are important and effective surfactants. Stability of invertases in the environment with increased content of organic solvent is crucial for increase of productivity of glycosidases. Their stability is significantly influenced by N-glycosylation. However, yeast N-glycosylation pathways may synthesize plethora of N-glycan structures. A total natural crude mixture of invertase glycoforms (EINV) extracted from Saccharomyces cerevisiae was subfractionated by anion-exchange chromatography on industrial monolithic supports to obtain different glycoforms (EINV1–EINV3). Separated glycoforms exhibited different stabilities in water-alcohol solutions that are in direct correlation with the amount of phosphate bound to N-glycans. Observed differences in stability of different invertase glycoforms were used to improve productivity of methyl β-d -fructofuranoside (MF) synthesis. The efficiency and yield of MF synthesis were improved more than 50% when the most stabile glycoform bearing the lowest amount of phosphorylated N-glycans is selected and utilized. These data underline the importance of analysis of glycan structures attached to glycoproteins, demonstrate different impact of N-glycans on the surface charge and enzyme stability in regard to particular reaction environment, and provide a platform for improvement of yield of industrial enzymatic synthesis by chromatographic selection of glycoforms on monolithic supports. 相似文献
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