Synthesis of α-Deuterated Primary Amines via Reductive Deuteration of Oximes Using D 2 O as a Deuterium Source

Synthesis of α-Deuterated Primary Amines via Reductive Deuteration of Oximes Using D 2 O as a Deuterium Source

Selective introduction of the deuterium atom into the α-position of amines is important for the development of all types of novel deuterated drugs and agrochemicals due to the pervasive presence of amines. In this study, we report the first general single-electron-transfer reductive deuteration of b...

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Veröffentlicht in:Journal of organic chemistry 2021-02, Vol.86 (3), p.2907-2916
Hauptverfasser: Ning, Lei, Li, Hengzhao, Lai, Zemin, Szostak, Michal, Chen, Xingyue, Dong, Yanhong, Jin, Shuhui, An, Jie
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container_end_page 2916
container_issue 3
container_start_page 2907
container_title Journal of organic chemistry
container_volume 86
creator Ning, Lei
Li, Hengzhao
Lai, Zemin
Szostak, Michal
Chen, Xingyue
Dong, Yanhong
Jin, Shuhui
An, Jie
description Selective introduction of the deuterium atom into the α-position of amines is important for the development of all types of novel deuterated drugs and agrochemicals due to the pervasive presence of amines. In this study, we report the first general single-electron-transfer reductive deuteration of both ketoximes and aldoximes using SmI as an electron donor and D O as a deuterium source for the synthesis of α-deuterated primary amines with excellent levels of deuterium incorporations (>95% [D]). This protocol exhibits excellent chemoselectivity and tolerates a variety of functional groups. The potential application of this new method was showcased in the synthesis of deuterated drugs, such as rimantadine- , the tebufenpyrad analogue, derivatives of nabumetone and pregnenolone, and a series of building blocks for the rapid and general assembly of deuterated drugs and pesticides.
doi_str_mv 10.1021/acs.joc.0c02829
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title Synthesis of α-Deuterated Primary Amines via Reductive Deuteration of Oximes Using D 2 O as a Deuterium Source
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