Functional Immobilization and Patterning of Proteins by an Enzymatic Transfer Reaction
Autor(en): | Waichman, Sharon Bhagawati, Maniraj Podoplelova, Yulia Reichel, Annett Brunk, Ariane Paterok, Dirk Piehler, Jacob |
Stichwörter: | BINDING INTERFACE; Chemistry; Chemistry, Analytical; FUSION PROTEINS; HISTIDINE-TAGGED PROTEINS; I INTERFERON-RECEPTOR; IFNAR1; MOTOR PROTEINS; SFP PHOSPHOPANTETHEINYL TRANSFERASE; SMALL MOLECULES; SURFACES; TECHNOLOGIES | Erscheinungsdatum: | 2010 | Herausgeber: | AMER CHEMICAL SOC | Journal: | ANALYTICAL CHEMISTRY | Volumen: | 82 | Ausgabe: | 4 | Startseite: | 1478 | Seitenende: | 1485 | Zusammenfassung: | Functional immobilization and lateral organization of proteins into micro- and nanopatterns is an important prerequisite for miniaturizing bioanalytical and biotechnological devices. Here, we report an approach for efficient site-specific protein immobilization based on enzymatic phosphopantetheinyl transfer (PPT) from coenzyme A (CoA)-functionalized glass-type surfaces to specific peptide tags. We devised a bottom-up surface modification approach for coupling CoA densely to a molecular poly(ethylene glycol) polymer brush. Site-specific enzymatic immobilization of proteins fused to different target peptides for the PPTase Sfp was confirmed by real-time label-free detection. Quantitative protein-protein interaction experiments confirmed that significantly more than 50% of the immobilized protein was fully active. The method was successfully applied with different proteins. However, different immobilization efficiencies of PPT-based immobilization were observed for different peptide tags being fused to the N- and C-termini of proteins. On the basis of this immobilization method, we established photolithographic patterning of proteins into functional binary microstructures. |
ISSN: | 00032700 | DOI: | 10.1021/ac902608a |
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geprüft am 03.05.2024