Modulation of the electroosmotic mobility using polyelectrolyte multilayer coatings for protein analysis by capillary electrophoresis

Successive multiple ionic-polymer layers (SMIL) coatings have been often used in capillary electrophoresis due to their simplicity to implement and regenerate. However, the performances of the separation are strongly dependent on the nature of the polyelectrolyte partners used to build the SMIL coat...

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Bibliographic Details
Published in:Analytica chimica acta 2019-05, Vol.1057, p.152-161
Main Authors: Leclercq, Laurent, Morvan, Marine, Koch, Jens, Neusüß, Christian, Cottet, Hervé
Format: Article
Language:English
Subjects:
Acetic acid
Acrylic acid
Acrylics
Animals
Capillaries
Capillary coatings
Capillary electrophoresis
Chemical Sciences
Coatings
Dextran
Dextran sulfate
Diethylaminoethyl dextran
Electroosmosis
Electroosmosis - methods
Electrophoresis
Electrophoresis, Capillary
Electrophoretic mobility
Isomers
Lysine
Methacrylic acid
Migration
Mobility
Multilayers
Polyanions
Polybrene
Polycations
Polyelectrolyte multilayers
Polyelectrolytes
Polyelectrolytes - chemistry
Polymer coatings
Polymers
Polymethacrylic acid
Protein separation
Proteins
Proteins - analysis
Proteins - chemistry
Ribonuclease B
Separation
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Summary:Successive multiple ionic-polymer layers (SMIL) coatings have been often used in capillary electrophoresis due to their simplicity to implement and regenerate. However, the performances of the separation are strongly dependent on the nature of the polyelectrolyte partners used to build the SMIL coating. In this work, we investigate new couples of polyelectrolytes that were not tested before: namely, polybrene (PB), quaternized diethylaminoethyl dextran (DEAEDq) and ε-poly(lysine) (ε-PLL), as polycations, in combination with poly(acrylic acid), dextran sulfate, poly(styrenesulfonate), poly(methacrylic acid) and poly(l-lysine citramide), as polyanions. Systematic study of intra- and inter-capillaries repeatabilities/reproducibilities was performed based on the determination of migration time, separation efficiency and electroosmotic mobility. Interestingly, the electroosmotic flow was found to vary with the nature of the polycation on a broad range of electroosmotic mobility decreasing in magnitude in the order of PB>ε-PLL > DEAEDq, whatever the polyanion associated. Application of the coatings to the separation of proteins is illustrated in a 0.5 M acetic acid BGE, including CE-MS separation of ribonuclease B-glycoforms of the same mass (positional or structural isomers). [Display omitted] •5-layers successive polyelectrolyte coating used for protein analysis in CE.•Electroosmotic mobility varies from −43 to −63 Tiselius units depending on polycation.•Coatings with poly(l-lysine citramide) gave the best separation efficiencies.•Average RSD on migration times (resp. separation efficiency) was 1.7% (resp. 9.6%).•CE-MS separation of positional isomers of the glycoprotein ribonuclease B.
ISSN:0003-2670
1873-4324
DOI:10.1016/j.aca.2019.01.008