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Organometallic <i>S</i>-arylation Reagents for Rapid PEGylation of Biomolecules

Hayden R. Montgomery, Marco S. Messina, Evan A. Doud, Alexander M. Spokoyny, Heather D. Maynard

2022Bioconjugate Chemistry21 citationsDOIOpen Access PDF

Abstract

Bioconjugation techniques for biomolecule–polymer conjugation are numerous; however, slow kinetics and steric challenges generally necessitate excess reagents or long reaction times. Organometallic transformations are known to circumvent these issues; yet, harsh reaction conditions, incompatibility in aqueous media, and substrate promiscuity often limit their use in a biological context. The work reported herein demonstrates a facile and benign organometallic Au(III) S-arylation approach that enables the synthesis of poly(ethylene glycol) monomethyl ether (mPEG)-protein conjugates with high efficiency. Isolable and bench-stable 2, 5, and 10 kDa mPEG-Au(III) reagents were synthesized via oxidative addition into terminal aryl iodide substituents installed on mPEG substrates with a (Me-DalPhos)Au(I)Cl precursor. Reaction of the isolable mPEG-Au(III) oxidative addition complexes with a cysteine thiol on a biomolecule resulted in facile and selective cysteine arylation chemistry, forging covalent S-aryl linkages and affording the mPEG-biomolecule conjugates. Notably, low polymer reagent loadings were used to achieve near quantitative conversion at room temperature in 1 min due to the rapid kinetics and high chemoselectivity of this Au-based bioconjugation approach. Therefore, this work represents an important addition to the protein–polymer conjugation chemical toolbox.

Topics & Concepts

ChemistryPEGylationReagentBiomoleculeCombinatorial chemistryNanotechnologyOrganic chemistryBiochemistryPolyethylene glycolMaterials scienceChemical Synthesis and AnalysisClick Chemistry and ApplicationsFluorine in Organic Chemistry
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