光氧化还原催化的仿生1,2-氨基迁移。

IF 19.2 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Nature chemistry Pub Date : 2025-03-07 DOI:10.1038/s41557-025-01775-2

Weitai Fan, Yuang Cui, Beibei Zhan, Yizhou Chen, Lei Bao, Yufan Liang, Xiaheng Zhang

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引用次数: 0

摘要

合成有机化学家不断从生物催化过程中汲取灵感，以创新超越现有催化平台的合成方法。在这种背景下，虽然1,2-氨基迁移代表了一个可行的生化过程，但它在合成有机化学界仍未得到充分利用。在这里，我们提出了通过生物催化机制和光氧化还原催化的协同结合来完成仿生1,2-氨基迁移。该平台利用丰富的α-氨基酸衍生物和现成的有机分子作为偶联伙伴，实现了γ-取代β-氨基酸的模块化合成。这种温和的方法具有良好的底物和功能兼容性，提供多种γ-取代β-氨基酸（超过80个例子），而不需要费力的多步骤合成。实验结果和理论分析表明，1,2-氨基迁移机制包括α-乙烯基醛胺酯自由基加成、3-外三角环化和随后的重排过程。我们预计这种转化将成为高效构建非天然γ-取代β-氨基酸的通用平台。

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Biomimetic 1,2-amino migration via photoredox catalysis.

Synthetic organic chemists continually draw inspiration from biocatalytic processes to innovate synthetic methodologies beyond existing catalytic platforms. Within this context, although 1,2-amino migration represents a viable biochemical process, it remains underutilized within the synthetic organic chemistry community. Here we present a biomimetic 1,2-amino migration accomplished through the synergistic combination of biocatalytic mechanism and photoredox catalysis. This platform enables the modular synthesis of γ-substituted β-amino acids by utilizing abundant α-amino-acid derivatives and readily available organic molecules as coupling partners. This mild method features excellent substrate and functionality compatibility, affording a diverse range of γ-substituted β-amino acids (more than 80 examples) without the need for laborious multistep synthesis. Mechanistic studies, supported by both experimental observations and theoretical analysis, indicate that the 1,2-amino migration mechanism involves radical addition to α-vinyl-aldimine ester, 3-exo-trig cyclization and a subsequent rearrangement process. We anticipate that this transformation will serve as a versatile platform for the highly efficient construction of unnatural γ-substituted β-amino acids.

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来源期刊

Nature chemistry 化学-化学综合

CiteScore

29.60

自引率

1.40%

发文量

226

审稿时长

1.7 months

期刊介绍： Nature Chemistry is a monthly journal that publishes groundbreaking and significant research in all areas of chemistry. It covers traditional subjects such as analytical, inorganic, organic, and physical chemistry, as well as a wide range of other topics including catalysis, computational and theoretical chemistry, and environmental chemistry. The journal also features interdisciplinary research at the interface of chemistry with biology, materials science, nanotechnology, and physics. Manuscripts detailing such multidisciplinary work are encouraged, as long as the central theme pertains to chemistry. Aside from primary research, Nature Chemistry publishes review articles, news and views, research highlights from other journals, commentaries, book reviews, correspondence, and analysis of the broader chemical landscape. It also addresses crucial issues related to education, funding, policy, intellectual property, and the societal impact of chemistry. Nature Chemistry is dedicated to ensuring the highest standards of original research through a fair and rigorous review process. It offers authors maximum visibility for their papers, access to a broad readership, exceptional copy editing and production standards, rapid publication, and independence from academic societies and other vested interests. Overall, Nature Chemistry aims to be the authoritative voice of the global chemical community.