Davis chiral oxaziridines

R " = H, alkyl, aryl, substituted alkyl and aryl SIRs = SIMes, SiMe2(t-Bu), SIEts solvent CHoCH. pentane, toluene n = 1-3 chiral oxidant Davis chiral oxaziridine, Shi s D-fructose derived ketone/Oxone, (Salen)manganese(lll)-complexes/NaOCI or PhIO... 

Enantioselective oxidation using Davis chiral oxaziridine reagents is not as well developed as its diastereoselective counterpart. However, a number of simple enolates have been... 

The utility of Davis chiral oxaziridine reagents has been more recently applied to the synthesis of optically active a-hydroxy phosphonates. Two groups have been largely responsible for developments in this area. Principally, Wiemer and co-workers have demonstrated the highly enantioselective hydroxylation of a series of benzyl phosphonates. As shown below for 69, hydroxylation makes use of oxaziridine 6, proceeding in moderate... 

Hydroxylation of 4-oxo-substituted 1,2-thiazine 99 via the racemic Davis oxaziridine reagent 100 afforded alcohol 101 in good yields. Efforts to produce 101 as a single enantiomer with chiral oxaziridine reagents afforded products with only a modest 46% ee (Equation 9) <2002EJP221>. 

The enantioselective chemical and enzymatic oxidations of sulfides [86, 94] have also received many interesting developments. High e.e. values have been obtained independently by Kagan [103,104] and Modena [105] via modified Sharpless reagents and by Davis s group [106], which used various chiral oxaziridines. 

Oxidation by chiral oxaziridines. For more than a decade, Davis s group49,71 76 has been working on the stoichiometric asymmetric oxidation of prochiral sulfides. In a series of elegant and important papers, they have demonstrated that their approach is one of the best methods in the synthesis of chiral sulfoxides. This research has yielded four generations of chiral oxaziridines 41- 44 exhibiting different stereoselectivities as a result of their dissimilar active-site structures (Fig. 5). 

Quite recently, new methods for the synthesis of chiral sulfoxides have been discovered. Asymmetric oxidation of sulfides by peroxides in the presence of chiral titanium catalysts has been studied by Kagan and Modena [S02-S0S] ( 3.2.3), and the use of chiral oxaziridines ( 2.8) as oxidizing agents has been introduced by Davis [506]. 

Davis and coworkers [506, 744] performed the asymmetric oxidation of pro-chiral sulfides with chiral oxaziridines, and reagents bearing the bomane skeleton 2.82 or 2.83 (X = Cl) were the most efficient. The chiral oxaziridine oxidations are... 

Despite high yield, the Rubottom oxidation is limited by the necessity for synthesis of the requisite silane ethers. The direct oxidation of enolates has thus emerged as the preferred method for the stereoselective formation of a-hydroxy carbonyl compounds because of the method s effectiveness for both acyclic and cyclic substrates. Davis s oxaziridine reagents have proved to be ideally suited for the one-step enolate hydroxylation process. The following chiral oxaziridine reagents have been utilized effectively in this protocol and will be showcased throughout the chapter. 

Davis et al. used a chiral oxaziridine for the asymmetric oxidation of sulfides to sulfoxides.Oxidation of isopropyl- -tolyl sulfide (427) with oxaziridine 428, for example, gave 60.3% ee (S) of 429 (at -78°C in chloroform).5 0 The absolute configuration of the sulfide is determined by approach of the sulfide to the oxaziridine oxygen, as illustrated by 430. Steric factors appear to be the primarily reason for the chiral recognition. 5 1 In this model, attack by sulfur minimizes the Rl and Rs interactions with the oxaziridine... 

Scheme 1.21 Davis s first chiral oxaziridine for asymmetric epoxidation...

A large proportion of Davis s work has been involved in the elucidation of the transition state employed in the transfer of the oxygen from the oxaziridine to the olefin substrate. Davis favoured the planar transition state and was at the time supported by theoretical calculations however, more recent calculations favour the spiro transition state [6]. Davis has also described the asymmetric oxidation of enolate anions by chiral oxaziridines, which led to a-hydroxyketones with enanti-oselectivities of up to 95% ee [56, 57], Silyl enol ethers have also been reported to give epoxides when treated with oxaziridines, but the instability of these compounds is too great to allow isolation [37,58,59], To date, only Davis has reported successful isolation of a-silyloxy epoxides [60],... 

Chiral Davis oxaziridines allow the oxidation of phosphonates to a-hydroxy-phosphonates in good ee with apparently wide generality and with a sense of induction that is well controlled by the chirality of the reagent used.109 mCPBA oxidation of a bi-cyclic e do-camphorylsulfonylimine surprisingly resulted in an exo-camphorylsulfonyl-oxaziridine, whereas all other camphorylsulfonylimines resulted only in endo-oxaziiidines.110 Asymmetric oxidation of sulfides to sulfoxides and the a-hydroxylation of enolates were predicted by models in which steric interactions are minimized. 

Acetalization of thiochroman-3-one gives a 1 1 diastereomeric mixture and subsequent oxidation with Davis reagent, W-(phenylsulfonyl)(3,3-dichlorocamphoryl)oxaziridine, yielded the sulfoxides each with a 4 1 enantioselectivity. Chiral chromatographic separation of the diastereomers preceded isolation of the major enantiomers. (3-Elimination and isomerization of the double bond then produced the individual thiochromene 1-oxide diastereomers. The generation of an a-sulfinyl carbanion effects the cleavage of one of the acetal C-O bonds with the protected diol released in a final ozonolysis step. The stereochemical results indicate that it is the C-O bond syn to the sulfoxide function that is cleaved (Scheme 63) <1996TA29>. 

Enders and coworicers have shown that deprotonation of chiral SAMP/RAMP hydrazones (or their substituted analogs) derived from ketones or aldehydes, followed by reaction with Davis oxaziridine reagent provides the a-hydroxy hydrazones in moderate yield but with high diastereoselectivity. Direct unmasking or protection followed by unmasking provides the corresponding a-hydroxy ketones or aldehydes respectively (Scheme 24). Both antipodes of the hydroxylated compounds are available by appropriate choice of (5)- or (R)-proline-deiived auxiliaries. The direction of induction is predictable, if not wholly uniform (R substitution alters the a-stereochemistry for aldehyde hydrazones). The process clearly provides a valuable approach to both systems. 

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