Click-Tag and Amine-Tag: Chemical Tag Approaches for Efficient Protein Labeling In Vitro and on Live Cells using the Naturally Split Npu DnaE Intein

Protein labeling with synthetic moieties remains in many cases a technically challenging or unresolved task. Two new and simple concepts are presented. In both approaches, a very short tag of only a few amino acids is prepared with the desired chemical modification and, in a second step, it is trans...

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Veröffentlicht in:Angewandte Chemie International Edition 2014-04, Vol.53 (16), p.4113-4117
Hauptverfasser: Schütz, Vivien, Mootz, Henning D.
Format: Artikel
Sprache:eng
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Zusammenfassung:Protein labeling with synthetic moieties remains in many cases a technically challenging or unresolved task. Two new and simple concepts are presented. In both approaches, a very short tag of only a few amino acids is prepared with the desired chemical modification and, in a second step, it is transferred to the protein of interest by protein trans‐splicing. For the amine‐tag, a recombinant intein fragment free of lysine residues was generated such that the amine group of the N terminus could be selectively modified with regular amine‐reactive reagents. Thus, standard bioconjugation procedures without any chemical synthesis could be applied without modification of lysines in the protein of interest. For the click‐tag, protein trans‐splicing was combined with unnatural amino acid mutagenesis and subsequent bioorthogonal side chain modification, as demonstrated for click chemistry using p‐azidophenylalanine. By the two‐step strategy, exposure of the protein of interest to the copper catalyst was avoided. Click and splice: Short tags of only a few amino acids fused to a recombinantly produced split intein fragment were modified with synthetic moieties and then transferred to a protein of interest by protein trans‐splicing. These two‐step procedures circumvent exposure of the protein of interest to copper ions for click chemistry and undesired modification of lysines, even though standard bioconjugation reagents are used.
ISSN:1433-7851
1521-3773
DOI:10.1002/anie.201309396