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Repurposing a plant peptide cyclase for targeted lysine acylation

Fabian B. H. Rehm, Tristan J. Tyler, Yan Zhou, Yen‐Hua Huang, Conan K. Wang, Nicole Lawrence, David J. Craik, Thomas Durek

2024Nature Chemistry16 citationsDOIOpen Access PDF

Abstract

Transpeptidases are powerful tools for protein engineering but are largely restricted to acting at protein backbone termini. Alternative enzymatic approaches for internal protein labelling require bulky recognition motifs or non-proteinogenic reaction partners, potentially restricting which proteins can be modified or the types of modification that can be installed. Here we report a strategy for labelling lysine side chain ε-amines by repurposing an engineered asparaginyl ligase, which naturally catalyses peptide head-to-tail cyclization, for versatile isopeptide ligations that are compatible with peptidic substrates. We find that internal lysines with an adjacent leucine residue mimic the conventional N-terminal glycine-leucine substrate. This dipeptide motif enables efficient intra- or intermolecular ligation through internal lysine side chains, minimally leaving an asparagine C-terminally linked to the lysine side chain via an isopeptide bond. The versatility of this approach is demonstrated by the chemoenzymatic synthesis of peptides with non-native C terminus-to-side chain topology and the conjugation of chemically modified peptides to recombinant proteins.

Topics & Concepts

ChemistryDipeptideSide chainPeptideLysineDNA ligaseBiochemistryAcylationSemisynthesisResidue (chemistry)Protein engineeringPeptide bondStereochemistryLinkerCombinatorial chemistryAmino acidEnzymeOrganic chemistryPolymerCatalysisComputer scienceOperating systemBiochemical and Structural CharacterizationGlycosylation and Glycoproteins ResearchMonoclonal and Polyclonal Antibodies Research
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