Abstract

The (site-selective) derivatization of amino acids and peptides represents an attractive field with potential applications in the establishment of structure–activity relationships and labeling of bioactive compounds. In this respect, bioorthogonal cross-coupling reactions provide valuable means for ready access to peptide analogues with diversified structure and function. Due to the complex and chiral nature of peptides, mild reaction conditions are preferred; hence, a suitable cross-coupling reaction is required for the chemical modification of these challenging substrates. The Suzuki reaction, involving organoboron species, is appropriate given the stability and environmentally benign nature of these reactants and their amenability to be applied in (partial) aqueous reaction conditions, an expected requirement upon the derivatization of peptides. Concerning the halogenated reaction partner, residues bearing halogen moieties can either be introduced directly as halogenated amino acids during solid-phase peptide synthesis (SPPS) or genetically encoded into larger proteins. A reversed approach building in boron in the peptidic backbone is also possible. Furthermore, based on this complementarity, cyclic peptides can be prepared by halogenation, and borylation of two amino acid side chains present within the same peptidic substrate. Here, the Suzuki–Miyaura reaction is a tool to induce the desired cyclization. In this review, we discuss diverse amino acid and peptide-based applications explored by means of this extremely versatile cross-coupling reaction. With the advent of peptide-based drugs, versatile bioorthogonal conversions on these substrates have become highly valuable.

Highlights

  • The Pd-catalyzed Suzuki–Miyaura reaction has found widespread use in the synthesis of carbon–carbon bonds [1,2]

  • Recent reviews on sustainable Suzuki–Miyaura reactions in aqueous media discuss the use of recoverable catalysts, yet these are limited to non-peptidic substrates [11,138,182]

  • We covered the initial developments of Suzuki–Miyaura cross-couplings on single amino acids in organic(/aqueous) media up to aqueous reaction conditions for the efficient derivatization of complex protein substrates

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Summary

Introduction

The Pd-catalyzed Suzuki–Miyaura reaction has found widespread use in the synthesis of carbon–carbon bonds [1,2]. Through bioorthogonal reactions, the site-selective labeling of the (bioactive) substrate [29,30,31,32,33] This cross-coupling possesses a huge derivatization of peptides and proteins is possible after the incorporation of non-proteinogenic amino potential with regards to the improvement of peptide-based therapeutics and pharmacological acids and subsequent labeling of the (bioactive) substrate [29,30,31,32,33].

Representative
Access
Derivatization
CO3 in asynthesis coworkers
Coupling of Amino Acids
Suzuki–Miyaura Reaction on Peptidic Substrates
12. Ligands
Solid-Phase
Protein Derivatization
16. Schematic representation forSuzuki–Miyaura
The Suzuki–Miyaura Reaction as a Tool towards Improved Biological Activity
Findings
Conclusions

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