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Capillary electrophoresis-time of flight-mass spectrometry using noncovalently bilayer-coated capillaries for the analysis of amino acids in human urine.
Electrophoresis. 2008 Jun; 29(12):2714-22.E

Abstract

A capillary electrophoresis-time of flight-mass spectrometry (CE-TOF-MS) method for the analysis of amino acids in human urine was developed. Capillaries noncovalently coated with a bilayer of Polybrene (PB) and poly(vinyl sulfonate) (PVS) provided a considerable EOF at low pH, thus facilitating the fast separation of amino acids using a BGE of 1 M formic acid (pH 1.8). The PB-PVS coating proved to be very consistent yielding stable CE-MS patterns of amino acids in urine with favorable migration time repeatability (RSDs <2%). The relatively low sample loading capacity of CE was circumvented by an in-capillary preconcentration step based on pH-mediated stacking allowing 100-nL sample injection (i.e. ca. 4% of capillary volume). As a result, LODs for amino acids were down to 20 nM while achieving satisfactory separation efficiencies. Preliminary validation of the method with urine samples showed good linear responses for the amino acids (R(2) >0.99), and RSDs for peak areas were <10%. Special attention was paid to the influence of matrix effects on the quantification of amino acids. The magnitude of ion suppression by the matrix was similar for different urine samples. The CE-TOF-MS method was used for the analysis of urine samples of patients with urinary tract infection (UTI). Concentrations of a subset of amino acids were determined and compared with concentrations in urine of healthy controls. Furthermore, partial least squares-discriminant analysis (PLS-DA) of the CE-TOF-MS dataset in the 50-450 m/z region showed a distinctive grouping of the UTI samples and the control samples. Examination of score and loadings plot revealed a number of compounds, including phenylalanine, to be responsible for grouping of the samples. Thus, the CE-TOF-MS method shows good potential for the screening of body fluids based on the analysis of endogenous low-molecular weight metabolites such as amino acids and related compounds.

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Publisher Full Text (DOI)

Authors+Show Affiliations

Ramautar R
Department of Biomedical Analysis, Utrecht University, Utrecht, The Netherlands. r.ramautar@uu.nl
Mayboroda OA
No affiliation info available
Derks RJ
No affiliation info available
van Nieuwkoop C
No affiliation info available
van Dissel JT
No affiliation info available
Somsen GW
No affiliation info available
Deelder AM
No affiliation info available
de Jong GJ
No affiliation info available

MeSH

Amino AcidsElectrophoresis, CapillaryHexadimethrine BromideHumansMass SpectrometryPolyvinylsSulfonic AcidsUrinary Tract Infections

Pub Type(s)

Journal Article

Language

eng

PubMed ID

18494035

Citation

Ramautar, Rawi, et al. "Capillary Electrophoresis-time of Flight-mass Spectrometry Using Noncovalently Bilayer-coated Capillaries for the Analysis of Amino Acids in Human Urine." Electrophoresis, vol. 29, no. 12, 2008, pp. 2714-22.
Ramautar R, Mayboroda OA, Derks RJ, et al. Capillary electrophoresis-time of flight-mass spectrometry using noncovalently bilayer-coated capillaries for the analysis of amino acids in human urine. Electrophoresis. 2008;29(12):2714-22.
Ramautar, R., Mayboroda, O. A., Derks, R. J., van Nieuwkoop, C., van Dissel, J. T., Somsen, G. W., Deelder, A. M., & de Jong, G. J. (2008). Capillary electrophoresis-time of flight-mass spectrometry using noncovalently bilayer-coated capillaries for the analysis of amino acids in human urine. Electrophoresis, 29(12), 2714-22. https://doi.org/10.1002/elps.200700929
Ramautar R, et al. Capillary Electrophoresis-time of Flight-mass Spectrometry Using Noncovalently Bilayer-coated Capillaries for the Analysis of Amino Acids in Human Urine. Electrophoresis. 2008;29(12):2714-22. PubMed PMID: 18494035.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - Capillary electrophoresis-time of flight-mass spectrometry using noncovalently bilayer-coated capillaries for the analysis of amino acids in human urine. AU - Ramautar,Rawi, AU - Mayboroda,Oleg A, AU - Derks,Rico J E, AU - van Nieuwkoop,Cees, AU - van Dissel,Jaap T, AU - Somsen,Govert W, AU - Deelder,André M, AU - de Jong,Gerhardus J, PY - 2008/5/22/pubmed PY - 2008/9/16/medline PY - 2008/5/22/entrez SP - 2714 EP - 22 JF - Electrophoresis JO - Electrophoresis VL - 29 IS - 12 N2 - A capillary electrophoresis-time of flight-mass spectrometry (CE-TOF-MS) method for the analysis of amino acids in human urine was developed. Capillaries noncovalently coated with a bilayer of Polybrene (PB) and poly(vinyl sulfonate) (PVS) provided a considerable EOF at low pH, thus facilitating the fast separation of amino acids using a BGE of 1 M formic acid (pH 1.8). The PB-PVS coating proved to be very consistent yielding stable CE-MS patterns of amino acids in urine with favorable migration time repeatability (RSDs <2%). The relatively low sample loading capacity of CE was circumvented by an in-capillary preconcentration step based on pH-mediated stacking allowing 100-nL sample injection (i.e. ca. 4% of capillary volume). As a result, LODs for amino acids were down to 20 nM while achieving satisfactory separation efficiencies. Preliminary validation of the method with urine samples showed good linear responses for the amino acids (R(2) >0.99), and RSDs for peak areas were <10%. Special attention was paid to the influence of matrix effects on the quantification of amino acids. The magnitude of ion suppression by the matrix was similar for different urine samples. The CE-TOF-MS method was used for the analysis of urine samples of patients with urinary tract infection (UTI). Concentrations of a subset of amino acids were determined and compared with concentrations in urine of healthy controls. Furthermore, partial least squares-discriminant analysis (PLS-DA) of the CE-TOF-MS dataset in the 50-450 m/z region showed a distinctive grouping of the UTI samples and the control samples. Examination of score and loadings plot revealed a number of compounds, including phenylalanine, to be responsible for grouping of the samples. Thus, the CE-TOF-MS method shows good potential for the screening of body fluids based on the analysis of endogenous low-molecular weight metabolites such as amino acids and related compounds. SN - 0173-0835 UR - https://www.unboundmedicine.com/medline/citation/18494035/Capillary_electrophoresis_time_of_flight_mass_spectrometry_using_noncovalently_bilayer_coated_capillaries_for_the_analysis_of_amino_acids_in_human_urine_ L2 - https://doi.org/10.1002/elps.200700929 DB - PRIME DP - Unbound Medicine ER -