Coupling of capillary electrophoresis (CE) with mass spectrometry (MS) represents a powerful combination for performing rapid, efficient, and sensitive analysis of a variety of compounds. Here we describe a construction, operation, and application of a microfabricated liquid junction CE-MS interface. The interface is designed as a microfabricated unit with an integrated liquid junction and electrospray tip made from polyimide, which is positioned in a plastic connection block securing the separation CE capillary and attachable to the CE instrument. The application was demonstrated by CE-MS analysis of dextran oligomers labeled by (2-aminoethyl)trimethylammonium (AETMA) salt.
Prostate cancer has the highest malignancy rate diagnosed in men worldwide. Albeit, the gold standard serum prostate-specific antigen (PSA) assays reduced the mortality rate of the disease, the number of false positive diagnoses steeply increased. Therefore, there is an urgent need for complementary biomarkers to enhance the specificity and selectivity of current diagnostic methods. Information about PSA glycosylation can help to fulfill this gap as alterations of its carbohydrate moieties due to cancerous transformation may represent additional markers to distinguish malignant from benign tumors. However, development of suitable methods and instrumentations to investigate the N-glycosylation profile of PSA represents a challenge. In this paper, we critically review the current bioanalytical trends and strategies in the field of PSA glycobiomarker research focusing on separation based characterization methods.
The advantages of using mixtures of organic solvents for the separation of labeled oligosaccharides on the amide stationary phase under hydrophilic interaction liquid chromatography conditions are presented. The effect of the type of buffer as well as solvent or their mixtures on retention of uracil, saccharide labeling reagents (2-aminobenzoic acid, 2-aminobenzamide, ethyl 4-aminobenzoate, procainamide), and corresponding labeled saccharides were evaluated. The successful isocratic separation of labeled isomeric trisaccharides (maltotriose, panose, and isomaltotriose) was achieved in the mobile phase consisting of a 90% (v/v) mixture of organic solvents (methanol/acetonitrile 60:40) and 10% (v/v) 30 mM ammonium formate, pH 3.3. Changing the volume ratio between methanol/acetonitrile from 60:40 to 50:50 (v/v) allowed to obtain the separation of di-, tri-, and tetrasaccharides labeled by ethyl 4-aminobenzoate in less than 10.5 min.
- MeSH
- acetonitrily chemie MeSH
- amidy chemie MeSH
- chemické techniky analytické přístrojové vybavení metody MeSH
- chromatografie kapalinová * MeSH
- formiáty chemie MeSH
- hydrofobní a hydrofilní interakce MeSH
- isomerie MeSH
- oligosacharidy izolace a purifikace MeSH
- ortoaminobenzoáty chemie MeSH
- rozpouštědla chemie MeSH
- sacharidy chemie MeSH
- Publikační typ
- časopisecké články MeSH
A novel and original application of salting-out assisted liquid-liquid extraction is presented. This technique was used to purify the final reaction products (quaternary ammonium salts) from unreacted components and by-products present in multiple excesses. The partition of two structurally related compounds as (2-aminoethyl)trimethylammonium salt (a labeling reagent) and a derivative of [2-(imidazoline-1-yl)ethyl]trimethylammonium salt (a final reaction product of N-acetylglucosamine labeling by (2-aminoethyl)trimethylammonium salt) between acetonitrile-rich and water-rich layers was monitored by hydrophilic interaction chromatography with electrospray ionization mass spectrometry. Despite the poor solubility of both highly polar substances in solutions containing a high concentration of acetonitrile, the main portion of the labeling reagent (72%) can be removed from the crude reaction mixture in the first extraction step using 95% acetonitrile/5% water as an extraction solvent. The purified final reaction product contained only 2% of the labeling reagent, and it was suitable for analysis by direct infusion mass spectrometry to confirm its identity. The capability of the suggested purification protocol to process small-volume highly salted reaction mixtures was also proven by analysis of saccharide mixture containing glucose, maltose, and maltotriose labeled by the positively charged tag.
- Publikační typ
- časopisecké články MeSH
In this work, we compare labeling by two negatively charged fluorescent labels, 8-aminopyrene-1,3,6-trisulfonic acid (APTS) and 8-(2-hydrazino-2-oxoethoxy)pyrene-1,3,6-trisulfonic acid (Cascade Blue hydrazide [CBH]). Effectiveness of the labeling chemistries were investigated by 4-hydroxybenzaldehyde and maltoheptaose followed by LC/UV-MS and CE/LIF analysis, respectively. The reaction yield of APTS labeling was determined to be only ∼10%. This is due to reduction of almost 90% of the analyte by sodium cyanoborohydride to alcohol, which cannot be further labeled via reductive amination. However, the CBH labeling provides ∼90% reaction yield based on the LC/UV-MS measurements. The significantly higher labeling yield was also confirmed by CE/LIF measurements. Finally, the more effective hydrazone formation technique of CBH was characterized and applied for N-linked glycan analysis by CE/LIF.
- MeSH
- aminace MeSH
- chromatografie kapalinová metody MeSH
- elektroforéza kapilární metody MeSH
- fluorescenční barviva chemie MeSH
- hmotnostní spektrometrie metody MeSH
- hydrazony chemie MeSH
- oligosacharidy analýza chemie MeSH
- pyreny chemie MeSH
- Publikační typ
- časopisecké články MeSH
- práce podpořená grantem MeSH
One of the challenging instrumental aspects in coupling an automated CE instrument with ESI mass spectrometry (CE-MS) is finding the balance between the stability, reproducibility and sensitivity of the analysis and compatibility with the standard CE instrumentation. Here, we present a development of a new liquid junction based electrospray interface for automated CE-MS, with a focus on the technical design followed by computer modeling of transport conditions as well as characterization of basic performance of the interface. This hybrid arrangement designed as a microfabricated unit attachable to the automated CE instrument allows using of a wide range of separation capillaries with respect to their diameter, length or internal coating (e.g., for suppressed electroosmotic flow). Different compositions of the ESI liquid and background electrolyte solutions can be used if needed. The microfabricated part, prepared by laser machining from polyimide, includes a self-aligning liquid junction, a short transport channel, and a pointed sprayer for the electrospray ionization. This microfabricated part is positioned in a plastic connection block securing the separation capillary and flushing ports. Transport conditions were modelled using computer simulation and the real life performance of the interface was compared to that of a commercial sheath liquid interface. The basic performance of the interface was demonstrated by separations of peptides, proteins, and oligosaccharides.
- MeSH
- chemické modely MeSH
- elektroforéza kapilární přístrojové vybavení MeSH
- hmotnostní spektrometrie přístrojové vybavení MeSH
- laboratorní automatizace MeSH
- mikrofluidní analytické techniky přístrojové vybavení metody MeSH
- proteiny analýza izolace a purifikace MeSH
- Publikační typ
- časopisecké články MeSH
- práce podpořená grantem MeSH
Capillary electrophoresis-mass spectrometry was applied for the analysis of oligosaccharides and N-linked glycans with an attached charge label facilitating electrophoretic migration and electrospray ionization efficiency. Several different labeling strategies have been tested with different tags and tagging reactions including reductive amination and hydrazone formation. However, a formation of multiple labeled N-linked glycans was observed by CE-MS in a positive ion mode when positively charged labels such as aliphatic amines containing a quaternary ammonium group were attached to N-linked glycans by reductive amination. A reaction mechanism explaining a side reaction occurring during the labeling and the multiple product formation was proposed and confirmed by using isotopically labeled N-acetylglucosamine. Finally, it was confirmed that derivatization of sugars via a hydrazone formation can be a simpler method with a high reaction yield suitable for high sensitive CE-ESI/MS analyses of N-linked glycans.
The labeling by amino acids and peptides was investigated for sensitive and fast analyses of oligosaccharides and N-linked glycans by capillary electrophoresis-mass spectrometry (CE-MS). Peptide tags with a various number of histidine residues were tested for maltooligosaccharide labeling in order to investigate the effect of the size of labels and a number of charges on CE-MS analysis. Nevertheless, the reductive amination labeling of N-linked glycans by a hexahistidine tag resulted in a multiple products formation, therefore a peptide tag was modified by hydrazine functionality in order to perform labeling by hydrazone formation chemistry. This labeling approach significantly improved sensitivity with LOD of labeled maltopentaose determined to be 40 nmol/L and also significantly reduced separation time of neutral maltooligosaccharides and N-linked glycans released from bovine ribonuclease B. Furthermore, the labeling by this multi-cationic peptide hydrazine tag also allowed performing analysis of acidic glycans by CE-MS in a positive ion mode as demonstrated by separation of sialylated N-linked glycans released from bovine fetuin.
- MeSH
- elektroforéza kapilární metody MeSH
- fetuin A chemie MeSH
- histidin chemie MeSH
- hmotnostní spektrometrie metody MeSH
- oligopeptidy chemie MeSH
- oligosacharidy analýza chemie izolace a purifikace MeSH
- polysacharidy analýza chemie izolace a purifikace MeSH
- ribonukleasy chemie MeSH
- skot MeSH
- zvířata MeSH
- Check Tag
- skot MeSH
- zvířata MeSH
- Publikační typ
- časopisecké články MeSH
- Klíčová slova
- PICC,
- MeSH
- centrální žilní katétry MeSH
- lékařská onkologie MeSH
- ošetřovatelská péče MeSH
- péče o pacienta MeSH
- periferní katetrizace MeSH
Two-dimensional liquid-phase separations have gained increasing attention for their ability to separate complex sample mixtures. Among the experimental setups used, an on-line approach is preferred to reduce the probability of sample contamination, for easier automation and high-sample throughput. The interfacing of the separation techniques in the on-line mode brings additional demands on proper optimization of the two-dimensional system. In this review, the possibilities of the on-line coupling of liquid chromatography and liquid chromatography with capillary electrophoresis in two-dimensional systems are discussed. Special attention is paid to the fraction transfer process, which includes an overview of interfaces and experimental setups applied, the compatibility issues of separation systems, and instrumental parameters. The benefits and drawbacks of using electromigration separations in combination with liquid chromatography are presented as well.