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Literature DB >> 24049630

Rhodium-catalyzed enantioselective cyclopropanation of electron deficient alkenes.

Hengbin Wang¹, David M Guptill, Adrian Varela Alvarez, Djamaladdin G Musaev, Huw M L Davies.

Abstract

The rhodium-catalyzed reaction of electron-deficient alkenes with substituted aryldiazoacetates and vinyldiazoacetates results in highly stereoselective cyclopropanations. With adamantylglycine derived catalyst Rh2(S-TCPTAD)4, high asymmetric induction (up to 98% ee) can be obtained with a range of substrates. Computational studies suggest that the reaction is facilitated by weak interaction between the carbenoid and the substrate carbonyl but subsequently proceeds via different pathways depending on the nature of the carbonyl.. Acrylates and acrylamides result in the formation of cyclopropanation products while the use of unsaturated aldehydes and ketones results in the formation of epoxides.

Entities: Chemical Gene Species

Year: 2013 PMID： 24049630 PMCID： PMC3773518 DOI： 10.1039/C3SC50425E

Source DB: PubMed Journal: Chem Sci ISSN： 2041-6520 Impact factor: 9.825

44 in total

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Authors: Huw M L Davies; Chandrasekar Venkataramani
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Authors: Bernd F Straub
Journal: J Am Chem Soc Date: 2002-11-27 Impact factor: 15.419

11 in total

1. Enantioselective Dirhodium(II)-Catalyzed Cyclopropanations with Trimethylsilylethyl and Trichloroethyl Aryldiazoacetates.

Authors: Solymar Negretti; Carolyn M Cohen; Jane J Chang; David M Guptill; Huw M L Davies
Journal: Tetrahedron Date: 2015-06-02 Impact factor: 2.457

2. Stereoselective Cyclopropanation of Electron-Deficient Olefins with a Cofactor Redesigned Carbene Transferase Featuring Radical Reactivity.

Authors: Daniela M Carminati; Rudi Fasan
Journal: ACS Catal Date: 2019-09-05 Impact factor: 13.084

3. Catalytic Enantio- and Diastereoselective Cyclopropanation of 2-Azadienes for the Synthesis of Aminocyclopropanes Bearing Quaternary Carbon Stereogenic Centers.

Authors: Xinxin Shao; Steven J Malcolmson
Journal: Org Lett Date: 2019-08-29 Impact factor: 6.005

4. Improved cyclopropanation activity of histidine-ligated cytochrome P450 enables the enantioselective formal synthesis of levomilnacipran.

Authors: Z Jane Wang; Hans Renata; Nicole E Peck; Christopher C Farwell; Pedro S Coelho; Frances H Arnold
Journal: Angew Chem Int Ed Engl Date: 2014-05-06 Impact factor: 15.336

5. Distal Allylic/Benzylic C-H Functionalization of Silyl Ethers Using Donor/Acceptor Rhodium(II) Carbenes.

Authors: Janakiram Vaitla; Yannick T Boni; Huw M L Davies
Journal: Angew Chem Int Ed Engl Date: 2020-03-12 Impact factor: 15.336

6. P450-catalyzed asymmetric cyclopropanation of electron-deficient olefins under aerobic conditions.

Authors: Hans Renata; Z Jane Wang; Rebekah Z Kitto; Frances H Arnold
Journal: Catal Sci Technol Date: 2014-10-02 Impact factor: 6.119

7. Biocatalytic Strategy for the Highly Stereoselective Synthesis of CHF₂ -Containing Trisubstituted Cyclopropanes.

Authors: Daniela M Carminati; Jonathan Decaens; Samuel Couve-Bonnaire; Philippe Jubault; Rudi Fasan
Journal: Angew Chem Int Ed Engl Date: 2021-02-17 Impact factor: 15.336

8. Beyond Iron: Iridium-Containing P450 Enzymes for Selective Cyclopropanations of Structurally Diverse Alkenes.

Authors: Hanna M Key; Paweł Dydio; Zhennan Liu; Jennifer Y-E Rha; Andrew Nazarenko; Vida Seyedkazemi; Douglas S Clark; John F Hartwig
Journal: ACS Cent Sci Date: 2017-04-01 Impact factor: 14.553

9. An unusual stereoretentive 1,3-quaternary carbon shift resulting in an enantioselective Rh^II-catalyzed formal [4+1]-cycloaddition between diazo compounds and vinyl ketenes.

Authors: Kevin X Rodriguez; Tara C Pilato; Brandon L Ashfeld
Journal: Chem Sci Date: 2018-02-19 Impact factor: 9.825

10. Gold(I)-catalyzed intramolecular cyclization/intermolecular cycloaddition cascade as a fast track to polycarbocycles and mechanistic insights.

Authors: Cheng Zhang; Kemiao Hong; Chao Pei; Su Zhou; Wenhao Hu; A Stephen K Hashmi; Xinfang Xu
Journal: Nat Commun Date: 2021-02-19 Impact factor: 14.919