Dearomative dimerization of quinolines and their skeletal rearrangement to indoles triggered by single-electron transfer
Dearomatization of two-dimensional planar aromatic feedstocks is an attractive strategy for the introduction of three-dimensional vectors into chemical scaffolds to expand chemical space for drug discovery. Here, we demonstrate the dearomative dimerization and skeletal rearrangement of quinolines un...
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sg-ntu-dr.10356-1825732025-02-10T04:35:53Z Dearomative dimerization of quinolines and their skeletal rearrangement to indoles triggered by single-electron transfer Tan, Eugene Yew Kun Dehdari, Alireza Lani, Amirah S. Mat Pratt, Derek A. Chiba, Shunsuke School of Chemistry, Chemical Engineering and Biotechnology Chemistry Dearomatization Indoles Dearomatization of two-dimensional planar aromatic feedstocks is an attractive strategy for the introduction of three-dimensional vectors into chemical scaffolds to expand chemical space for drug discovery. Here, we demonstrate the dearomative dimerization and skeletal rearrangement of quinolines under polysulfide anion photocatalysis, in which the additive dictates the reaction courses. In the presence of formate, dearomative dimerization of quinolines is followed by cyclization to form an sp3-rich polyheterocyclic hybrid of a 2,5-methanobenzo[b]azepine and a tetrahydroquinoline in a net-reductive manner. On the other hand, in the presence of triethylamine instead of formate, sequential dimerization and skeletal rearrangement occurs to afford 4-(3-indolylmethyl)quinolines in a redox-neutral manner. These observations enabled the design of a net-reductive skeletal rearrangement of 4-arylquinolines to 3-(arylmethyl)indoles. Detailed mechanistic investigations revealed that this umpolung transformation from electron-deficient quinolines to electron-rich indoles is mediated via a 1,2-aryl migration/ring-contraction sequence, as opposed to the more commonly invoked neophyl-like rearrangement. Ministry of Education (MOE) Nanyang Technological University National Research Foundation (NRF) Financial support was provided by Nanyang Technological University (NTU Singapore), the Singapore National Research Foundation (NRF-CRP27-2021-0001), and the Singapore Ministry of Education (Academic Research Fund Tier 2: MOE-T2EP10122-0007) to S.C., as well as the Natural Sciences and Engineering Research Council of Canada (RGPIN-2022-05058) to D.A.P. 2025-02-10T04:35:53Z 2025-02-10T04:35:53Z 2024 Journal Article Tan, E. Y. K., Dehdari, A., Lani, A. S. M., Pratt, D. A. & Chiba, S. (2024). Dearomative dimerization of quinolines and their skeletal rearrangement to indoles triggered by single-electron transfer. Chem, 10(12), 3722-3734. https://dx.doi.org/10.1016/j.chempr.2024.09.016 2451-9308 https://hdl.handle.net/10356/182573 10.1016/j.chempr.2024.09.016 2-s2.0-85207743147 12 10 3722 3734 en NRF-CRP27-2021-0001 MOE-T2EP10122-0007 Chem © 2024 Elsevier Inc. All rights are reserved, including those for text and data mining, AI training, and similar technologies. |
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Chemistry Dearomatization Indoles Tan, Eugene Yew Kun Dehdari, Alireza Lani, Amirah S. Mat Pratt, Derek A. Chiba, Shunsuke Dearomative dimerization of quinolines and their skeletal rearrangement to indoles triggered by single-electron transfer |
| description |
Dearomatization of two-dimensional planar aromatic feedstocks is an attractive strategy for the introduction of three-dimensional vectors into chemical scaffolds to expand chemical space for drug discovery. Here, we demonstrate the dearomative dimerization and skeletal rearrangement of quinolines under polysulfide anion photocatalysis, in which the additive dictates the reaction courses. In the presence of formate, dearomative dimerization of quinolines is followed by cyclization to form an sp3-rich polyheterocyclic hybrid of a 2,5-methanobenzo[b]azepine and a tetrahydroquinoline in a net-reductive manner. On the other hand, in the presence of triethylamine instead of formate, sequential dimerization and skeletal rearrangement occurs to afford 4-(3-indolylmethyl)quinolines in a redox-neutral manner. These observations enabled the design of a net-reductive skeletal rearrangement of 4-arylquinolines to 3-(arylmethyl)indoles. Detailed mechanistic investigations revealed that this umpolung transformation from electron-deficient quinolines to electron-rich indoles is mediated via a 1,2-aryl migration/ring-contraction sequence, as opposed to the more commonly invoked neophyl-like rearrangement. |
| author2 |
School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Tan, Eugene Yew Kun Dehdari, Alireza Lani, Amirah S. Mat Pratt, Derek A. Chiba, Shunsuke |
| format |
Article |
| author |
Tan, Eugene Yew Kun Dehdari, Alireza Lani, Amirah S. Mat Pratt, Derek A. Chiba, Shunsuke |
| author_sort |
Tan, Eugene Yew Kun |
| title |
Dearomative dimerization of quinolines and their skeletal rearrangement to indoles triggered by single-electron transfer |
| title_short |
Dearomative dimerization of quinolines and their skeletal rearrangement to indoles triggered by single-electron transfer |
| title_full |
Dearomative dimerization of quinolines and their skeletal rearrangement to indoles triggered by single-electron transfer |
| title_fullStr |
Dearomative dimerization of quinolines and their skeletal rearrangement to indoles triggered by single-electron transfer |
| title_full_unstemmed |
Dearomative dimerization of quinolines and their skeletal rearrangement to indoles triggered by single-electron transfer |
| title_sort |
dearomative dimerization of quinolines and their skeletal rearrangement to indoles triggered by single-electron transfer |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182573 |
| _version_ |
1823807401820684288 |