Stereoselective Alkylation of Chiral Titanium(IV) Enolates with tert-Butyl Peresters

In Search of Radical Transformations from Metal Enolates. Direct Reactions of N-Acyl-1,3-oxazolidin-2-ones with TEMPO Catalyzed by Copper(II) Acetate

The direct reactions of a diverse range of N-acyl-1,3-oxazolidin-2-ones with TEMPO, catalyzed by copper(II) acetate and 4,7-dimethyl-1,10-phenanthroline without the need for any base, are herein described. These reactions afford the corresponding aminoxylated derivatives with high chemoselectivity and complete regioselectivity, achieving excellent yields under mild conditions. Further treatment of the resulting imides enables access to a variety of formally protected hydroxy compounds, which can be regarded as valuable synthetic intermediates. The efficient formal synthesis of isoproterenol highlights the potential of this methodology and sets the stage for further advancements in the catalytic chemistry of metal enolates.

Synthesis of chiral systems featuring the pyrrole unit: a review

Synthetic strategies towards pyrroles within chiral frameworks are summarised, focussing on reports published 2010-2023. The synthesis of pyrroles featuring substituents bearing chiral centres are summarised, as are those whereby pyrroles are located within axially chiral systems courtesy of restricted bond rotation.

Diastereoselective access to C,C-glycosyl amino acids via iron-catalyzed, auxiliary-enabled MHAT coupling

Access to C,C-glycosyl amino acids as a novel class of glycomimetics is reported by means of radical generation, intermolecular addition and stereoselective reduction via a metal-induced hydrogen atom transfer (MHAT) sequence. The 'matched' coupling of exo-D-glycals with an enantiopure dehydroalanine bearing a (R)-configured benzyl oxazolidinone enables a singular case of two-fold diastereocontrol under iron catalysis. In the common exo-D-glucal series, the nature of the C-2 substituent was found to play a key role from both reactivity and stereocontrol aspects.

Optimized Asymmetric Synthesis of Umuravumbolide

Herein, the asymmetric synthesis of umuravumbolide (1) is described. The new approach features highly stereoselective transformations (dr ≥ 95:5) to install both stereocenters and the Z olefin, which involve a new radical alkylation, an Ando olefination, and a Krische allylation on a Z allylic alcohol, not reported before. The application of such successful reactions, together with the limited use of protecting groups and concession steps, makes it possible to complete the synthesis in 10 steps, resulting in a 39% overall yield from chiral N-acyl oxazolidinone 2.