Oxazolidinones asymmetric hydroxylation

Atom-transfer addition of primary and secondary bromide oxazolidinones to alkenes in the presence of Lewis acids has been investigated and the effects of solvent, temperature, and catalyst were determined. The best Lewis acids were found to be Sc(OTf)3 and Yb(OTf)3 and control was possible using chiral auxiliary oxazolidinones. Tertiary bromides did not react (Scheme 37). Stereochemistry of reduction of the cw-mesityl-alkene (53) with BusSnH proceeds to give the ( )-alkene (54) as the major product ( Z = 9 1). Theoretical calculations at the BLYP/6-31G level were undertaken to rationalize the stereochemistry. Asymmetric hydroxylation of the benzylic position of a range of substrates can be achieved by using a chiral dioxomthenium(VI) porphyrin (55). The oxidation proceeds via a rate-limiting H-abstraction to produce a benzylic radical intermediate. ... 

The utilization of a-amino acids and their derived 6-araino alcohols in asymmetric synthesis has been extensive. A number of procedures have been reported for the reduction of a variety of amino acid derivatives however, the direct reduction of a-am1no acids with borane has proven to be exceptionally convenient for laboratory-scale reactions. These reductions characteristically proceed in high yield with no perceptible racemization. The resulting p-amino alcohols can, in turn, be transformed into oxazolidinones, which have proven to be versatile chiral auxiliaries. Besides the highly diastereoselective aldol addition reactions, enolates of N-acyl oxazolidinones have been used in conjunction with asymmetric alkylations, halogenations, hydroxylations, acylations, and azide transfer processes, all of which proceed with excellent levels of stereoselectivity. 

Precursor of Useful Chiral Ligands. OPEN is widely used for the preparation of chiral ligands. Organometallic compounds with these ligands act as useful reagents or catalysts in asymmetric induction reactions such as dihydroxylation of olefins, transfer hydrogenation of ketones and imines, Diels-Alder and aldol reactions, desymmetrization of meso-diols to produce chiral oxazolidinones, epoxidation of simple olefins, benzylic hydroxylation, and borohydride reduction of ketones, imines, and a,p-unsaturated carboxylates. ... 

One-carbon Homologations. SEM-Cl can be used as a formaldehyde equivalent, which upon alkylation affords, directly, a protected hydroxyl. SEM-Cl does not suffer from some of the handling liabilities of formaldehyde (e.g., the need for cracking or the use of aqueous solutions) and as such has shown specific promise in the area of asymmetric alkylations. Asymmetric alkylations of enolates have been accomplished via the employment of chiral auxiliaries including oxazolidinones (eq 26) and RAMP/SAMP hydrazones. Furthermore, Schultz and co-workers have utilized SEM-Cl to trap chiral enolates derived from Birch reductions (eq 27). ... 

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