Position‐coded multivalent peptide–peptide interactions revealed by tryptophan‐scanning mutagenesis

We demonstrate in this contribution the evidence that significant cooperative binding effect can be identified for the amino acid sites that are determinant to the binding characteristics in peptide–peptide interactions. The analysis of tryptophan‐scanning mutagenesis of the 14‐mer peptide consistin...

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Veröffentlicht in:	Journal of peptide science 2020-09, Vol.26 (9), p.n/a
Hauptverfasser:	Zou, Yimin, Yu, Lanlan, Fang, Xiaocui, Zheng, Yongfang, Yang, Yanlian, Wang, Chen
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino acids Binding sites flow cytometry Glycine Indoles Mutagenesis Peptide mapping Peptides peptide–peptide interaction position dependence Scanning Scanning mutagenesis Tryptophan tryptophan mutation Volcanoes
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creator	Zou, Yimin Yu, Lanlan Fang, Xiaocui Zheng, Yongfang Yang, Yanlian Wang, Chen
description	We demonstrate in this contribution the evidence that significant cooperative binding effect can be identified for the amino acid sites that are determinant to the binding characteristics in peptide–peptide interactions. The analysis of tryptophan‐scanning mutagenesis of the 14‐mer peptide consisting only of glycine provides a mapping of position‐dependent contributions to the binding energy. The pronounced tryptophan‐associated peptide–peptide interactions are originated from the indole moieties with the main chains of 14‐mer glycines containing N–H and CO moieties. Specifically, with the presence of two tryptophans as determinant amino acids, cooperative binding can be observed, which are dependent on relative positions of the two tryptophans with a “volcano”‐like characteristics. An optimal separation of 6–10 amino acids between two adjacent binding sites can be identified to achieve maximal binding interactions. By the aid of tryptophan‐scanning mutagenesis, a position coded “volcano”‐like characteristics of peptide–peptide interaction was observed. And an optimal separation of 6–10 amino acids between two adjacent binding sites can be identified to achieve maximal binding interactions.
doi_str_mv	10.1002/psc.3273
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subjects	Amino acids Binding sites flow cytometry Glycine Indoles Mutagenesis Peptide mapping Peptides peptide–peptide interaction position dependence Scanning Scanning mutagenesis Tryptophan tryptophan mutation Volcanoes
title	Position‐coded multivalent peptide–peptide interactions revealed by tryptophan‐scanning mutagenesis
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