Enantioselective Intermolecular Murai-Type Alkene Hydroarylation Reactions

Aldhous, Timothy P.; Chung, Raymond W. M.; Dalling, Andrew G.; Bower, John F.

doi:10.1055/s-0040-1720406

Cited by 21 publications

(5 citation statements)

References 99 publications

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“…More broadly, our study is important because enantioselective C(sp 3 )-H additions to alkenes are achieved by exploiting 'native' directing functionality. This has a clear parallel to Murai's seminal ortho-directed alkene hydroarylations 49 , a report that ignited the field of metal-catalysed C(sp 2 )-H functionalization, and has led to an emerging family of by-product-free enantioselective cross-couplings 50 . Our laboratory is now focused on developing a complementary set of C(sp 3 )-H-based cross-couplings by harnessing the design principles outlined here.…”

Section: Articlementioning

confidence: 86%

A directed enolization strategy enables by-product-free construction of contiguous stereocentres en route to complex amino acids

Hong,

Aldhous,

Kemmitt

et al. 2024

Nat. Chem.

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Homochiral α-amino acids are widely used in pharmaceutical design as key subunits in chiral catalyst synthesis or as building blocks in synthetic biology. Many synthetic methods have been developed to access rare or unnatural variants by controlling the installation of the α-stereocentre. By contrast, and despite their importance, α-amino acids possessing β-stereocentres are much harder to synthesize. Here we demonstrate an iridium-catalysed protocol that allows the direct upconversion of simple alkenes and glycine derivatives to give β-substituted α-amino acids with exceptional levels of regio- and stereocontrol. Our method exploits the native directing ability of a glycine-derived N–H unit to facilitate Ir-catalysed enolization of the adjacent carbonyl. The resulting stereodefined enolate cross-couples with a styrene or α-olefin to install two contiguous stereocentres. The process offers very high levels of regio- and stereocontrol and occurs with complete atom economy. In broader terms, our reaction design offers a unique directing-group-controlled strategy for the direct stereocontrolled α-alkylation of carbonyl compounds, and provides a powerful approach for the synthesis of challenging contiguous stereocentres.

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Section: Articlementioning

confidence: 86%

A directed enolization strategy enables by-product-free construction of contiguous stereocentres en route to complex amino acids

Hong,

Aldhous,

Kemmitt

et al. 2024

Nat. Chem.

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“…This pioneering breakthrough has spurred the subsequent development of the catalytic addition of C–H bonds to alkenes using a variety of transition-metal catalysts . Because tertiary benzylic stereocenters are ubiquitous in drugs, agrochemicals, and bioactive compounds, recent efforts have been directed to the development of the enantioselective Murai-type reactions . These atom- and step-economical synthetic protocols nicely complement the classical methods for the installation of alkyl groups to arenes such as the Friedel–Crafts reaction, radical addition, or prefunctionalization of the arenes, where they suffer from limitations including reaction efficiency, substrate scope, and product selectivity. , Through the innovation of catalytic systems, branch and enantioselective hydroarylation of terminal alkenes has begun to emerge recently …”

Section: Introductionmentioning

confidence: 99%

Directing Group Repositioning Strategy Enabled Site- and Enantioselective Addition of Heteroaromatic C–H Bonds to Acyclic Internal Alkenes

Zhao

2023

J. Am. Chem. Soc.

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Despite the notable advances achieved in the Murai-type hydroarylations, highly enantioselective catalytic addition of native (hetero)arenes to internal alkenes remains a prominent challenge. Herein, we report a directing group repositioning strategy, which enables the iridium-catalyzed enantioselective addition of heteroarenes including furan, benzofuran, and thiophene to internal enamides. The C–H bond at the C2 position of the heteroarene is site-selectively cleaved and added regioselectively to the β-position of an enamide, affording a valuable β-heteroaryl amide with high enantioselectivity. Mechanistic studies indicate that the rate and the enantioselectivity are determined by separate elementary steps.

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“…Among the methods used for alkene transformation, metal-catalyzed C–H addition to alkenes has been proven to be a powerful strategy for the transformation of organic molecules. , The influential work by Murai on the C–H hydroarylation of vinyl silanes led to significant advances in the transformation of alkenes . Despite extensive investigations, the site-selectivity of the hydrofunctionalization of alkenes remained challenging . In 2012, our group successfully controlled the regioselectivity in the cationic iridium-catalyzed hydroarylation of terminal alkenes with indole derivatives and achieved the selective synthesis of branched and linear isomers, respectively .…”

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confidence: 99%

Ir-Catalyzed Distal Branch-Selective Hydroarylation of Unactivated Internal Alkenes with Benzanilides via C–H Activation along with Consecutive Isomerization

Hung Nigel Tang,

Tokutake,

Ito

et al. 2023

Org. Lett.

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We herein report a synergistic strategy of C–H activation and consecutive isomerization catalyzed by an Ir catalyst to selectively obtain branched isomers as C–H alkylated products of benzanilide derivatives. A well-tuned ligand and a directing group are crucial to achieve this selectivity. The scope of this reaction is demonstrated by the use of a variety of substituents and complex molecules.

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Enantioselective Intermolecular Murai-Type Alkene Hydroarylation Reactions

Cited by 21 publications

References 99 publications

A directed enolization strategy enables by-product-free construction of contiguous stereocentres en route to complex amino acids

A directed enolization strategy enables by-product-free construction of contiguous stereocentres en route to complex amino acids

Directing Group Repositioning Strategy Enabled Site- and Enantioselective Addition of Heteroaromatic C–H Bonds to Acyclic Internal Alkenes

Ir-Catalyzed Distal Branch-Selective Hydroarylation of Unactivated Internal Alkenes with Benzanilides via C–H Activation along with Consecutive Isomerization

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