Parallel Chemical Protein Synthesis on a Surface Enables the Rapid Analysis of the Phosphoregulation of SH3 Domains

Abstract Analysis of postranslationally modified protein domains is complicated by an availability problem, as recombinant methods rarely allow site‐specificity at will. Although total synthesis enables full control over posttranslational and other modifications, chemical approaches are limited to shorter peptides. To solve this problem, we herein describe a method that combines a) immobilization of N‐terminally thiolated peptide hydrazides by hydrazone ligation, b) on‐surface native chemical ligation with self‐purified peptide thioesters, c) radical‐induced desulfurization, and d) a surface‐based fluorescence binding assay for functional characterization. We used the method to rapidly investigate 20 SH3 domains, with a focus on their phosphoregulation. The analysis suggests that tyrosine phosphorylation of SH3 domains found in Abl kinases act as a switch that can induce both the loss and, unexpectedly, gain of affinity for proline‐rich ligands.