Marilena Bisaccia scite author profile

The application of metabolic precursors for selective stable isotope labeling of aromatic residues in cell-based protein overexpression has already resulted in numerous NMR probes to study the structural and dynamic characteristics of proteins. With anthranilic acid, we present the structurally simplest precursor for exclusive tryptophan side chain labeling. A synthetic route to 13C, 2H isotopologues allows the installation of isolated 13C–1H spin systems in the indole ring of tryptophan, representing a versatile tool to investigate side chain motion using relaxation-based experiments without the loss of magnetization due to strong 1JCC and weaker 2JCH scalar couplings, as well as dipolar interactions with remote hydrogens. In this article, we want to introduce this novel precursor in the context of hitherto existing techniques of in vivo aromatic residue labeling.Electronic supplementary materialThe online version of this article (doi:10.1007/s10858-017-0129-2) contains supplementary material, which is available to authorized users.

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Novel Approaches in Selective Tryptophan Isotope Labeling by Using Escherichia coli Overexpression Media

Schörghuber

Sára

Bisaccia

et al. 2015

ChemBioChem

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NMR-based investigations of large protein complexes require optimized isotopic labeling schemes. We report new methods to introduce stable isotopes into tryptophan residues; these are fine-tuned to the requirements of the particular protein NMR experiment. Selective backbone labeling was performed by using a new α-ketoacid precursor as an additive in cell-based overexpression media. Additionally, we developed synthetic routes to certain isotopologues of indole with (13)C-(1)H spin systems surrounded by (12)C and (2)H. The corresponding proteins, overexpressed in the presence of these precursor compounds, can be effectively analyzed for conformational changes in tryptophan residues in response to external stimuli, such as interaction with other proteins or small molecules.

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Late metabolic precursors for selective aromatic residue labeling

et al. 2018

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In recent years, we developed a toolbox of heavy isotope containing compounds, which serve as metabolic amino acid precursors in the E. coli-based overexpression of aromatic residue labeled proteins. Our labeling techniques show excellent results both in terms of selectivity and isotope incorporation levels. They are additionally distinguished by low sample production costs and meet the economic demands to further implement protein NMR spectroscopy as a routinely used method in drug development processes. Different isotopologues allow for the assembly of optimized protein samples, which fulfill the requirements of various NMR experiments to elucidate protein structures, analyze conformational dynamics, or probe interaction surfaces. In the present article, we want to summarize the precursors we developed so far and give examples of their special value in the probing of protein–ligand interaction.

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Synthesis of Metabolic Amino acid Precursors: Tools for Selective Isotope Labeling in Cell-Based Protein Overexpression

Lichtenecker

Schörghuber

Bisaccia

2015

Synlett

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ChemInform Abstract: Synthesis of Metabolic Amino Acid Precursors: Tools for Selective Isotope Labeling in Cell‐Based Protein Overexpression

Lichtenecker¹,

Schoerghuber²,

Bisaccia³

2016

ChemInform

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