Johnathan E. Schultz scite author profile

Over the past 20 years, the asymmetric synthesis of acyclic tetrasubstituted stereocenters by Pd-catalyzed asymmetric allylic alkylation (Pd-AAA) strategies has seen considerable growth. Despite the inherent difficulty in accessing acyclic tetrasubstituted stereocenters, creative approaches toward this problem have resulted in high stereoinduction on both electrophilic and nucleophilic reaction partners. Much of this chemistry has paved the way for unique solutions in Mo-, Ir-, and Rh-AAA, with many complimentary methods arising due to the unique regiochemical outcomes of AAA outside of Pd catalysis.1 Introduction2 Stereocontrol on Prochiral Electrophiles3 Stereocontrol on Prochiral Nucleophiles4 Temporary Cyclic Pronucleophiles5 Allylic Alkylation with Other Metals6 Conclusions and Outlook

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Enantioselective Divergent Synthesis of C19-Oxo Eburnane Alkaloids via Palladium-Catalyzed Asymmetric Allylic Alkylation of an N-Alkyl-α,β-unsaturated Lactam

Trost

Bai

et al. 2019

J. Am. Chem. Soc.

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The C19-oxo-functionalized eburnane alkaloids display unique chemical structure and interesting biological activity. Herein, we report a divergent enantioselective strategy to access these alkaloids by use of a challenging palladium-catalyzed asymmetric allylic alkylation of an N-alkyl-α,β-unsaturated lactam. 19-(S)-OH-Δ14-vincamone (phutdonginin), (−)-19-OH-eburnamine, (+)-19-oxoeburnamine, and (+)-19-OH-eburnamonine (1–4) have been concisely synthesized for the first time in 11 to 13 steps.

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Transition‐Metal‐Catalyzed Cycloaddition Reactions to Access Seven‐Membered Rings

Trost

Zuo

Schultz

2020

Chemistry A European J

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The efficient and selective synthesis of functionalized seven‐membered rings remains an important pursuit within synthetic organic chemistry, as this motif appears in numerous drug‐like molecules and natural products. Use of cycloaddition reactions remains an attractive approach for their construction within the perspective of atom and step economy. Additionally, the ability to combine multiple components in a single reaction has the potential to allow for efficient combinatorial strategies of diversity‐oriented synthesis. The inherent entropic penalty associated with achieving these transformations has impressively been overcome with development of catalysis, whereby the reaction components can be pre‐organized through activation by transition‐metal‐catalysis. The fine‐tuning of metal/ligand combinations as well as reaction conditions allows for achieving chemo‐, regio‐, diastereo‐ and enantioselectivity in these transformations. Herein, we discuss recent advances in transition‐metal‐catalyzed construction of seven‐membered rings via combination of 2–4 components mediated by a variety of metals. An emphasis is placed on the mechanistic aspects of these transformations to both illustrate the state of the science and to highlight the unique application of novel processes of transition‐metals in these transformations.

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Chemo-, Regio-, Diastereo-, and Enantioselective Palladium Allylic Alkylation of 1,3-Dioxaboroles as Synthetic Equivalents of α-Hydroxyketones

et al. 2019

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We describe the development of a Pdcatalyzed asymmetric allylic alkylation (Pd-AAA) of acyclic α-hydroxyketones using boronic acids as traceless templates. Condensation of boronic acids with hydroxyketones generates 1,3-dioxaboroles, which can be used directly as pronucleophiles in Pd-AAA reactions. This strategy enables control of the enolate geometry, while removing the issue of O-alkylation. Allylic alcohols can be directly ionized in the presence of Pd(0) and chiral ligands to afford alkylation products with regio-and enantioselectivity. Additionally, a dynamic kinetic asymmetric transformation of allenyl electrophiles affords Calkylation products in high regio-, diastereo-, and enantioselectivity. To the best of our knowledge, this method represents the first example in Pd-AAA for setting point chirality on a nucleophile simultaneous to stereoinduction on an axial chiral allene.

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Development of Chemo‐ and Enantioselective Palladium‐Catalyzed Decarboxylative Asymmetric Allylic Alkylation of α‐Nitroesters

2019

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We describe the development of aP d-catalyzed decarboxylative asymmetric allylic alkylation of a-nitro allyl esters to afforda cyclic tetrasubstituted nitroalkanes.O ptimization of the reaction parameters revealed unique ligand and solvent combinations crucial for achieving chemo-and enantioselective C-alkylation of electronically challenging benzylic nitronates and sterically encumbered 2-allyl esters.S ubstrates were efficiently accessed in acombinatorial fashion by across-Claisen/ a-arylation sequence.The method provides functional group orthogonality that complements nucleophilic imine allylation strategies for a-tertiary amine synthesis.

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