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Bifunctional Reagents for Formylglycine Conjugation: Pitfalls and Breakthroughs.

Nils JansonTobias KrügerLennard KarstenMareile BoschanskiThomas DierksKristian M MüllerNorbert Sewald
Published in: Chembiochem : a European journal of chemical biology (2020)
Formylglycine-generating enzymes specifically oxidize cysteine within the consensus sequence CxPxR to Cα -formylglycine (FGly). This noncanonical electrophilic amino acid can subsequently be addressed selectively by bioorthogonal hydrazino-iso-Pictet-Spengler (HIPS) or Knoevenagel ligation to attach payloads like fluorophores or drugs to proteins to obtain a defined payload-to-protein ratio. However, the disadvantages of these conjugation techniques include the need for a large excess of conjugation building block, comparably low reaction rates and limited stability of FGly-containing proteins. Therefore, functionalized clickable HIPS and tandem Knoevenagel building blocks were synthesized, conjugated to small proteins (DARPins) and subsequently linked to strained alkyne-containing payloads for protein labeling. This procedure allowed the selective bioconjugation of one or two DBCO-carrying payloads with nearly stoichiometric amounts at low concentrations. Furthermore, an azide-modified tandem Knoevenagel building block enabled the synthesis of branched PEG linkers and the conjugation of two fluorophores, resulting in an improved signal-to-noise ratio in live-cell fluorescence-imaging experiments targeting the EGF receptor.
Keyphrases
  • amino acid
  • fluorescence imaging
  • photodynamic therapy
  • protein protein
  • binding protein
  • drug delivery
  • air pollution
  • quantum dots
  • high resolution
  • fluorescent probe
  • molecularly imprinted
  • drug induced