Karin Büttner scite author profile

Karin Büttner

4Publications

12Citation Statements Received

27Citation Statements Given

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Leipzig University, Martin Luther University Halle-Wittenberg

Publications

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Improvement of an antibody-enzyme coupling yield by enzyme surface supercharging

et al. 2014

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BackgroundProtein cross-coupling reactions demand high yields, especially if the products are intended for bioanalytics, like enzyme-linked immunosorbent assays. Amongst other factors, the coupling yield depends on the concentration of the proteins being used for coupling. Protein supercharging of enzymes can increase the solubility dramatically, which could promote enzyme-antibody coupling reactions. A highly soluble, supercharged variant of the enzyme human enteropeptidase light chain was created by a site-directed mutagenesis of surface amino acids, used for the production of an antibody-enzyme conjugate and compared to the wild type enzyme.ResultsWild type and mutant enzyme could successfully be cross-coupled to an antibody to give antibody-enzyme conjugates suitable for ELISA. Their assay performances and the analysis of the enzyme activities in solution demonstrate that the supercharged version could be coupled to a higher extent, which resulted in better assay sensitivities. The generated conjugate, based on the supercharged enzyme, was feasible as a reporter molecule in a sandwich ELISA and allowed the detection of epidermal growth factor with a detection limit of 15.63 pg (25 pmol/L).ConclusionThe highly soluble, surface supercharged, human enteropeptidase light chain mutant provided better yields in coupling the enzyme to an antibody than the wild type. This is most likely related to the higher protein concentration during the coupling. The data suggest that supercharging can be applied favourably to other proteins which have to be covalently linked to other polymers or surfaces with high yields without losses in enzyme activity or specificity.Electronic supplementary materialThe online version of this article (doi:10.1186/s12896-014-0088-6) contains supplementary material, which is available to authorized users.

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Anionic polymerization of phenyl glycidyl ether

Tänzer

Büttner

Ludwig

1996

Polymer

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Optimierung einer rekombinanten mikrobiellen Transglutaminase

Büttner

Marx

Hertel

et al. 2010

Chemie Ingenieur Technik

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Optimierung einer mikrobiellen Transglutaminase mittels Sättigungsmutagenese und DNA-Shuffling

Büttner¹

2011

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Karin Büttner

Improvement of an antibody-enzyme coupling yield by enzyme surface supercharging

Anionic polymerization of phenyl glycidyl ether

Optimierung einer rekombinanten mikrobiellen Transglutaminase

Optimierung einer mikrobiellen Transglutaminase mittels Sättigungsmutagenese und DNA-Shuffling

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