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Cascade CuH-Catalysed Conversion of Alkynes to Enantioenriched 1,1-Disubstituted Products.


ABSTRACT: Enantioenriched ?-aminoboronic acids play a unique role in medicinal chemistry and have emerged as privileged pharmacophores in proteasome inhibitors. Additionally, they represent synthetically useful chiral building blocks in organic synthesis. Recently, CuH-catalyzed asymmetric alkene hydrofunctionalization has become a powerful tool to construct stereogenic carbon centers. In contrast, applying CuH cascade catalysis to achieve reductive 1,1-difunctionalization of alkynes remains an important, but largely unaddressed, synthetic challenge. Herein, we report an efficient strategy to synthesize ?-aminoboronates via CuH-catalyzed hydroboration/hydroamination cascade of readily available alkynes. Notably, this transformation selectively delivers the desired 1,1-heterodifunctionalized product in favor of alternative homodifunctionalized, 1,2-heterodifunctionalized, or reductively monofunctionalized byproducts, thereby offering rapid access to these privileged scaffolds with high chemo-, regio- and enantioselectivity.

SUBMITTER: Gao DW 

PROVIDER: S-EPMC7227802 | biostudies-literature | 2020

REPOSITORIES: biostudies-literature

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Cascade CuH-Catalysed Conversion of Alkynes to Enantioenriched 1,1-Disubstituted Products.

Gao De-Wei DW   Gao Yang Y   Shao Huiling H   Qiao Tian-Zhang TZ   Wang Xin X   Sanchez Brittany B BB   Chen Jason S JS   Liu Peng P   Engle Keary M KM  

Nature catalysis 20191202 1


Enantioenriched <i>α</i>-aminoboronic acids play a unique role in medicinal chemistry and have emerged as privileged pharmacophores in proteasome inhibitors. Additionally, they represent synthetically useful chiral building blocks in organic synthesis. Recently, CuH-catalyzed asymmetric alkene hydrofunctionalization has become a powerful tool to construct stereogenic carbon centers. In contrast, applying CuH cascade catalysis to achieve reductive 1,1-difunctionalization of alkynes remains an imp  ...[more]

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