Litcius/Paper detail

General dual functionalisation of biomacromolecules <i>via</i> a cysteine bridging strategy

Stephen J. Walsh, Jessica Iegre, Hikaru Seki, Jonathan D. Bargh, Hannah F. Sore, Jeremy S. Parker, Jason S. Carroll, David R. Spring

2020Organic & Biomolecular Chemistry29 citationsDOIOpen Access PDF

Abstract

Site-selective modification of peptides and proteins has resulted in the development of a host of novel tools for the study of cellular systems or the synthesis of enhanced biotherapeutics. There is a need for useful methodologies that enable site-selective modification of native peptides or proteins, which is even more prevalent when modification of the biomolecule with multiple payloads is desired. Herein, we report the development of a novel dual functional divinylpyrimidine (dfDVP) platform that enables robust and modular modification of peptides, antibody fragments and antibodies. These biomacromolecules could be easily functionalised with a range of functional payloads (e.g. fluorescent dyes, cytotoxic warheads or cell-penetrating tags). Importantly, the dual functionalised peptides and antibodies demonstrated exquisite bioactivity in a range of in vitro cellular assays, showcasing the enhanced utility of these bioactive conjugates.

Topics & Concepts

Bridging (networking)CysteineDual (grammatical number)Dual roleChemistryModular designNanotechnologyCombinatorial chemistryBiochemistryMaterials scienceComputer scienceEnzymeArtComputer networkLiteratureOperating systemChemical Synthesis and AnalysisClick Chemistry and ApplicationsPeptidase Inhibition and Analysis