Your search keyword '"Miloslav Sanda"' showing total 3 results

1. Study of structure-dependent chromatographic behavior of glycopeptides using reversed phase nanoLC

Author

Miloslav Sanda, Petr Kozlík, and Radoslav Goldman

Subjects

0301 basic medicine, chemistry.chemical_classification, Glycan, Chromatography, Glycosylation, biology, Chemistry, 010401 analytical chemistry, Clinical Biochemistry, Hemopexin, Reversed-phase chromatography, Tandem mass spectrometry, 01 natural sciences, Biochemistry, Glycopeptide, 0104 chemical sciences, Analytical Chemistry, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, biology.protein, Monosaccharide, Fucosylation

Abstract

Analysis of glycosylation is challenging due to micro- and macro-heterogeneity of the protein attachment. A combination of liquid chromatography with tandem mass spectrometry is one of the most powerful tools for glycopeptide analysis. In this work, we show the effect of various monosaccharide units on the retention time of glycopeptides. Retention behavior of several glycoforms of six peptides obtained from tryptic digest of haptoglobin, hemopexin and sex hormone binding globulin was studied on a reversed phase chromatographic column. We observed reduction of the retention time with increasing number of monosaccharide units of glycans attached to the same peptide backbone. Fucosylation of larger glycans provides less significant retention time shift than for smaller ones. Retention times of glycopeptides were expressed as relative retention times (RRT). These relative retention times were used for calculation of upper and lower limits of glycopeptide retention time windows under the reversed phase conditions. We then demonstrated on the case of a glycopeptide of haptoglobin that the predicted retention time window boosts confidence of identification and minimizes false positive identification. Relative retention time, as a qualitative parameter, is expected to improve LC-MS/MS characterization of glycopeptides. This article is protected by copyright. All rights reserved

Published

2017

2. LC-MS3 quantification ofO-glycopeptides in human serum

Author

Miloslav Sanda, Julius Benicky, Petr Pompach, and Radoslav Goldman

Subjects

Analyte, Chromatography, Glycosylation, Chemistry, Clinical Biochemistry, Selected reaction monitoring, Hemopexin, Tandem mass spectrometry, Biochemistry, Analytical Chemistry, Matrix (chemical analysis), chemistry.chemical_compound, Quantitative analysis (chemistry), Hybrid mass spectrometer

Abstract

Quantitative analysis of site-specific glycosylation of proteins is a challenging part of glycoproteomic research. Multiple enrichment steps are typically required in the analytical workflows to achieve adequate characterization of the site-specific glycoforms. In spite of recent advances, quantitative workflows need further development. Here, we report a selective and sensitive MS2 followed by further fragmentation in the linear IT-MS analyzer (MS3) multiple reaction monitoring workflow mass spectrometric method for direct analysis of O-glycopeptides in difficult matrix such as serum. Method optimization was performed using two serum glycoproteins, hemopexin (HPX) and sex hormone binding globulin. With the optimized MS3 workflow, we were able to analyze major glycoforms of HPX directly in human serum. Quantification of the minor glycoforms of HPX and glycoforms of sex hormone binding globulin required enrichment of the protein because these analytes were below the sensitivity of the 4000 quadrupole ion trap hybrid mass spectrometer in the complex serum background. In conclusion, we present a quantitative method for site-specific analysis of O-glycosylation with general applicability to mucin-type glycoproteins. Our results document reliable application of the optimized MS3 multiple reaction monitoring workflow to the relative quantification of O-glycosylation microheterogeneity of HPX in human serum. Introduction of isotopically labeled standards would be desirable to achieve absolute quantification of the analytes. The possibility to analyze serum samples directly represents a significant improvement of the quantitative glycopeptide workflows with the potential for use in clinical applications.

Published

2013

3. LC-MS3 quantification of O-glycopeptides in human serum

Author

Miloslav, Sanda, Petr, Pompach, Julius, Benicky, and Radoslav, Goldman

Subjects

Molecular Sequence Data, Glycopeptides, Reproducibility of Results, Sensitivity and Specificity, Article, Carbohydrate Sequence, Models, Chemical, Hemopexin, Limit of Detection, Tandem Mass Spectrometry, Sex Hormone-Binding Globulin, Linear Models, Humans, Amino Acid Sequence, Chromatography, Liquid

Abstract

Quantitative analysis of site-specific glycosylation of proteins is a challenging part of glycoproteomic research. Multiple enrichment steps are typically required in the analytical workflows to achieve adequate characterization of the site-specific glycoforms. In spite of recent advances, quantitative workflows need further development. Here, we report a selective and sensitive MS2 followed by further fragmentation in the linear IT-MS analyzer (MS3) multiple reaction monitoring workflow mass spectrometric method for direct analysis of O-glycopeptides in difficult matrix such as serum. Method optimization was performed using two serum glycoproteins, hemopexin (HPX) and sex hormone binding globulin. With the optimized MS3 workflow, we were able to analyze major glycoforms of HPX directly in human serum. Quantification of the minor glycoforms of HPX and glycoforms of sex hormone binding globulin required enrichment of the protein because these analytes were below the sensitivity of the 4000 quadrupole ion trap hybrid mass spectrometer in the complex serum background. In conclusion, we present a quantitative method for site-specific analysis of O-glycosylation with general applicability to mucin-type glycoproteins. Our results document reliable application of the optimized MS3 multiple reaction monitoring workflow to the relative quantification of O-glycosylation microheterogeneity of HPX in human serum. Introduction of isotopically labeled standards would be desirable to achieve absolute quantification of the analytes. The possibility to analyze serum samples directly represents a significant improvement of the quantitative glycopeptide workflows with the potential for use in clinical applications.

Published

2012