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Technical University of Berlin

5 ARTICLES PUBLISHED IN JoVE

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Biology

Measuring Cation Transport by Na,K- and H,K-ATPase in Xenopus Oocytes by Atomic Absorption Spectrophotometry: An Alternative to Radioisotope Assays
Katharina L. Dürr 1,2, Neslihan N. Tavraz 1, Susan Spiller 1, Thomas Friedrich 1
1Institute of Chemistry, Technical University of Berlin, 2The Vollum Institute, Oregon Health & Science University

We describe a method to quantify the activity of K+-countertransporting P-type ATPases by heterologous expression of the enzymes in Xenopus oocytes and measuring Rb+ or Li+ uptake into individual cells by atomic absorption spectrophotometry. The method is a sensitive and safe alternative to radioisotope flux experiments facilitating complex kinetic studies.

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Biology

Residue-specific Incorporation of Noncanonical Amino Acids into Model Proteins Using an Escherichia coli Cell-free Transcription-translation System
Emanuel G. Worst 1, Matthias P. Exner 2, Alessandro De Simone 2, Marc Schenkelberger 1, Vincent Noireaux 3, Nediljko Budisa 2, Albrecht Ott 1
1Department of Experimental Physics, Saarland University, 2Institute of Chemistry, Technische Universität Berlin, 3School of Physics and Astronomy, University of Minnesota

An easy-to-use, cell-free expression protocol for the residue-specific incorporation of noncanonical amino acid analogs into proteins, including downstream analysis, is presented for medical, pharmaceutic, structural and functional studies.

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Bioengineering

Engineering 'Golden' Fluorescence by Selective Pressure Incorporation of Non-canonical Amino Acids and Protein Analysis by Mass Spectrometry and Fluorescence
Tobias Baumann 1, Franz-Josef Schmitt 2, Almut Pelzer 1, Vivian Jeanette Spiering 3, Georg Johannes Freiherr von Sass 1, Thomas Friedrich 2, Nediljko Budisa 1
1Institute of Chemistry L 1, Department of Biocatalysis, Technical University of Berlin, 2Institute of Chemistry PC 14, Department of Bioenergetics, Technical University of Berlin, 3Institute of Chemistry TC 7, Department of Physical Chemistry/Molecular Material Sciences, Technical University of Berlin

Synthetic biology enables the engineering of proteins with unprecedented properties using the co-translational insertion of non-canonical amino acids. Here, we presented how a spectrally red-shifted variant of a GFP-type fluorophore with novel fluorescence spectroscopic properties, termed "gold" fluorescent protein (GdFP), is produced in E. coli via selective pressure incorporation (SPI).

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Bioengineering

Antimicrobial Peptides Produced by Selective Pressure Incorporation of Non-canonical Amino Acids
Jessica H. Nickling *1, Tobias Baumann *1, Franz-Josef Schmitt 2, Maike Bartholomae 3, Oscar P. Kuipers 3, Thomas Friedrich 2, Nediljko Budisa 1
1Department of Biocatalysis, Institute of Chemistry, Technische Universität Berlin, 2Department of Bioenergetics, Institute of Chemistry, Technische Universität Berlin, 3Molecular Genetics Group, Groningen Biomolecular Sciences and Biotechnology Institute, Department of Molecular Genetics, University of Groningen

The protocol presents the Escherichia coli-based selective pressure incorporation of non-canonical amino acids (ncAAs) into the lactococcal antimicrobial peptide nisin. Its properties can be changed during recombinant expression via substitution with desired ncAAs in defined growth media. Resulting changes in bioactivity are mapped by growth inhibition assays and fluorescence microscopy.

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Bioengineering

Residue-Specific Exchange of Proline by Proline Analogs in Fluorescent Proteins: How "Molecular Surgery" of the Backbone Affects Folding and Stability
Tuyet Mai Thi To 1, Vladimir Kubyshkin 2, Franz-Josef Schmitt 3, Nediljko Budisa 1,2, Thomas Friedrich 1
1Institute of Chemistry, Technische Universität Berlin, 2Department of Chemistry, University of Manitoba, 3Institute of Physics, Martin-Luther-Universität Halle-Wittenberg

To overcome the limitations of classical site-directed mutagenesis, proline analogs with specific modifications were incorporated into several fluorescent proteins. We show how the replacement of hydrogen by fluorine or of the single by double bonds in proline residues ("molecular surgery") affects fundamental protein properties, including their folding and interaction with light.

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