Selective functionalization of Trp residues via copper-catalyzed Ullmann coupling†

Organic chemistry frontiers : an international journal of organic chemistry Pub Date : 2025-02-12 DOI:10.1039/d4qo02073a

Xinru Liang , Junjie Shi , Qiuju Zhong , Lai Li , Yutao Liu , Tong Sun , Junxi Liang , Xianying Shi , Gaoqiang Li , Mingyu Yang

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Abstract

The modification of peptides can considerably change their functions, thus facilitating the development of peptides for use as drugs, therapeutics, and diagnostics, and in chemical biology. Transition-metal catalyzed cross-coupling is a promising method to accomplish peptide modification, but the chemoselective introduction of a new C(sp²)–N bond at a tryptophan residue is a challenging yet crucial task. Herein, the functionalization of peptides achieved through the copper-catalyzed Ullmann coupling of tryptophan with aryl halides containing multiple functional groups is reported, which enabled the arylation of the indole side chain of tryptophan. This method features remarkable tolerance of diverse functional groups, scalability, and distinct chemoselectivity toward tryptophan residues. The fusion of different functional groups demonstrated the potential utility of this approach, offering new avenues to modify the side chains of proteinogenic amino acids.

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铜催化乌尔曼偶联对色氨酸残基选择性功能化的影响

多肽的修饰可以显著地改变其功能，从而促进了多肽在药物、治疗、诊断和化学生物学方面的发展。过渡金属催化的交叉偶联是一种很有前途的肽修饰方法，但在色氨酸残基上化学选择性地引入新的C(sp2)−N键是一项具有挑战性但又至关重要的任务。本文报道了通过铜催化色氨酸与含有多个官能团的芳基卤化物的Ullmann偶联实现多肽的功能化，这使得色氨酸吲哚侧链的芳基化成为可能。该方法对多种官能团具有良好的耐受性、可扩展性和对色氨酸残基的化学选择性。不同官能团的融合证明了这种方法的潜在效用，为修饰蛋白质原氨基酸的侧链提供了新的途径。

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Organic chemistry frontiers : an international journal of organic chemistry

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7.80

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