Das FuN Screen-Prinzip zur experimentellen Analyse von Nanoporen in E. coli

Das FuN Screen-Prinzip zur experimentellen Analyse von Nanoporen in E. coli

Nanopores constitute an important class of biotechnologically relevant proteins. Unlike binders and enzymes, their experimental characterization is limited to high-resolution, yet low throughput biophysical methods. Addressing this technological gap, the functional nanopore (FuN) screen now provides...

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Veröffentlicht in:Biospektrum 2023-05, Vol.29 (3), p.315-317
Hauptverfasser: Weber, Wadim, Probanowski, Tobias, Eisenhauer, Klara, Kemp, Philipp, Stein, Viktor
Format: Artikel
Sprache:ger
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Zusammenfassung:Nanopores constitute an important class of biotechnologically relevant proteins. Unlike binders and enzymes, their experimental characterization is limited to high-resolution, yet low throughput biophysical methods. Addressing this technological gap, the functional nanopore (FuN) screen now provides a versatile assay to study and engineer nanopores in Escherichia coli combining quantitative resolution with the ease, scalability, and throughput of cellular assays.
ISSN:0947-0867
1868-6249
DOI:10.1007/s12268-023-1933-8