Polyionic fusion peptides function as specific dimerization motifs

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Abstract

The de novo design of a molecular adapter for directed association and covalent linkage of two polypeptides is presented. Using peptides containing charged amino acid residues and an additional cysteine residue (AlaCysLys8 and AlaCysGlu8) we demonstrate that the electrostatic interaction promotes the association of two synthetic peptides and, subsequently, disulfide bond formation. The reaction depends on both the redox potential and on the ionic strength of the buffer. Varying the redox potential, the interaction of the peptides was quantified by a ΔG0′ of 6.6 ± 0.2 kcal/mol. Heterodimerization of the peptides is highly specific, a competition of association by other cysteine containing compounds could not be observed. Two proteins comprising cysteine-containing polyionic fusion peptides, a modified Fab fragment and an α-glucosidase fusion, could be specifically conjugated by directed association and subsequent disulfide bond formation. Both proteins retain their functional characteristics within the bifunctional conjugate: enzymatic activity of the α-glucosidase and antigen-binding capacity of the Fab fragment are equivalent to the non-conjugated components.

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Richter, S. A., Stubenrauch, K., Lilie, H., & Rudolph, R. (2001). Polyionic fusion peptides function as specific dimerization motifs. Protein Engineering, 14(10), 775–783. https://doi.org/10.1093/protein/14.10.775

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