Late‐Stage Diversification of Tryptophan‐Derived Biomolecules

Pd‐mediated reactions have emerged as a powerful tool for the site‐selective and bioorthogonal late‐stage diversification of amino acids, peptides and related compounds. Indole moieties of tryptophan derivatives are susceptible to C(2)H‐activation, whereas halogenated aromatic amino acids such as halophenylalanines or halotryptophans provide a broad spectrum of different functionalisations. The compatibility of transition‐metal‐catalysed cross‐couplings with functional groups in peptides, other biologically active compounds and even proteins has been demonstrated. This Review primarily compiles the application of different cross‐coupling reactions to modify halotryptophans, halotryptophan containing peptides or halogenated, biologically active compounds derived from tryptophan. Modern approaches use regio‐ and stereoselective biocatalytic strategies to generate halotryptophans and derivatives on a preparative scale. The combination of bio‐ and chemocatalysis in cascade reactions is given by the biocompatibility and bioorthogonality of Pd‐mediated reactions.