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Lysine acylation using conjugating enzymes for site-specific modification and ubiquitination of recombinant proteins.

Raphael HofmannGaku AkimotoThomas G WucherpfennigCathleen ZeymerJeffrey W Bode
Published in: Nature chemistry (2020)
Enzymes are powerful tools for protein labelling due to their specificity and mild reaction conditions. Many protocols, however, are restricted to modifications at protein termini, rely on non-peptidic metabolites or require large recognition domains. Here we report a chemoenzymatic method, which we call lysine acylation using conjugating enzymes (LACE), to site-specifically modify folded proteins at internal lysine residues. LACE relies on a minimal genetically encoded tag (four residues) recognized by the E2 small ubiquitin-like modifier-conjugating enzyme Ubc9, and peptide or protein thioesters. Together, this approach obviates the need for E1 and E3 enzymes, enabling isopeptide formation with just Ubc9 in a programmable manner. We demonstrate the utility of LACE by the site-specific attachment of biochemical probes, one-pot dual-labelling in combination with sortase, and the conjugation of wild-type ubiquitin and ISG15 to recombinant proteins.
Keyphrases
  • amino acid
  • small molecule
  • protein protein
  • wild type
  • binding protein
  • ms ms
  • cell free
  • single molecule
  • fluorescence imaging
  • living cells
  • structural basis