Sortase-mediated ligation (SML) is a powerful tool of protein chemistry allowing the ligation of peptides containing LPxTG sorting motifs and N-terminal glycine nucleophiles. The installation of a sorting motif into the product prohibits the assembly of multiple fragments by SML. Here we report multi-fragment SML based on switchable sortase substrates. Substitution of the Leu residue by disulfide-containing Cys(StBu) results in active sorting motifs, which are inactivatable by reduction. In combination with a photo-protected N-Gly nucleophile, multi-fragment SML is enabled by repetitive cycles of SML and ligation site switching. The feasibility of this approach was demonstrated by a proof-of-concept four-fragment ligation, the assembly of peptide probes for bivalent chromatin binding proteins and oligomerization of peptide antigens. Biochemical and immuno-assays demonstrated functionality of these probes rendering them promising tools for immunology and chromatin biochemistry.
Lysine acetylation is a posttranslational protein modification mediating proteinprotein interactions by recruitment of bromodomains. Investigations of bromodomains have focused so far on the sequence context of the modification site and acylmodifications installed at lysine side chains. In contrast, there is only little information about the impact of the lysine residue that carries the modification on bromodomain binding. Here, we report a synthesis strategy for L-acetyl-homolysine from L-2-aminosuberic acid by the Lossen rearrangement. Peptide probes containing acetylated homolysine, lysine, and ornithine were generated and used for probing the binding preferences of four bromodomains from three different families. Tested bromodomains showed distinct binding patterns, and one of them bound acetylated homolysine with similar efficiency as the native substrate containing acetyl-lysine.Deacetylation assays with a bacterial sirtuin showed a strong preference for acetylated lysine, despite a broad specificity for N-acyl modifications.
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