Stereoselective synthesis, of asymmetric

Darzens reaction can be used to efficiently complete the stereoselective synthesis of a"-substituted epoxy ketones. As an example, Enders and Hett reported a technique for the asymmetric synthesis of a"-silylated a,P-epoxy ketones. Thus, optically active a -silyl a-bromoketone 38 was treated with LDA followed by the addition of benzaldehyde to give a"-silyl epoxyketone 40 in 66% yield with good... 

There are very few examples of asymmetric synthesis using optically pure ions as chiral-inducing agents for the control of the configuration at the metal center. Chiral anions for such an apphcation have recently been reviewed by Lacour [19]. For example, the chiral enantiomerically pure Trisphat anion was successfully used for the stereoselective synthesis of tris-diimine-Fe(ll) complex, made configurationally stable because of the presence of a tetradentate bis(l,10-phenanthroline) ligand (Fig. 9) [29]. Excellent diastereoselectivity (>20 1) was demonstrated as a consequence of the preferred homochiral association of the anion and the iron(ll) complex and evidence for a thermodynamic control of the selectivity was obtained. The two diastereoisomers can be efficiently separated by ion-pair chromatography on silica gel plates with excellent yields. 

A parallel solution-phase asymmetric synthesis of a-branched amines has been reported by Ellman and coworkers based on stereoselective addition of organomag-nesium reagents to enantiomerically pure tert-butanesulfinyl imines [156]. Micro-wave heating was utilized in two of the steps of this synthesis of asymmetric amines, both for the imine formation and for the resin capture (Scheme 7.128). 

A review was published covering recent progress in the stereoselective synthesis of piperidines <00S1781>. Routes described in detail include those derived from the chiral-pool, chiral auxiliaries, and catalytic asymmetric methodology. 

It has been established that the course of the sequential pericyclic reaction of cyclopentadienones with acyclic conjugated alkadienes depends on the reaction temperature, thermal treatment at low temperatures affording 3a,4,7,7a-tetrahydroinden-l-one derivatives by way of a Cope rearrangement (see Scheme 38). Roman et al have developed an efficient stereoselective synthesis of enantiomerically pure i-nitrotricyclo[5.2.2.0 ]undeca-3,8-dienes via a tandem consecutive asymmetric Diels-Alder-Cope rearrangement (see Scheme 39). Adducts... 

The use of chiral azomethine imines in asymmetric 1,3-dipolar cycloadditions with alkenes is limited. In the first example of this reaction, chiral azomethine imines were applied for the stereoselective synthesis of C-nucleosides (100-102). Recent work by Hus son and co-workers (103) showed the application of the chiral template 66 for the formation of a new enantiopure azomethine imine (Scheme 12.23). This template is very similar to the azomethine ylide precursor 52 described in Scheme 12.19. In the presence of benzaldehyde at elevated temperature, the azomethine imine 67 is formed. 1,3-Dipole 67 was subjected to reactions with a series of electron-deficient alkenes and alkynes and the reactions proceeded in several cases with very high selectivities. Most interestingly, it was also demonstrated that the azomethine imine underwent reaction with the electronically neutral 1-octene as shown in Scheme 12.23. Although a long reaction time was required, compound 68 was obtained as the only detectable regio- and diastereomer in 50% yield. This pioneering work demonstrates that there are several opportunities for the development of new highly selective reactions of azomethine imines (103). 

Oppolzefs chiral auxiliary,6 (-)-2,10-camphorsultam, is useful in the asymmetric Diels-Alder reaction,3 4 and for the preparation of enantiomerically pure p-substituted carboxylic acids7 and diols,8 in the stereoselective synthesis of A2-isoxazolines,9 and in the preparation of N-fluoro (-)-2,10-camphorsultam, an enantioselective fluorinating reagent.10... 

The [2+1] cycloaddition between metal carbenoid intermediates and alkenes is a very powerful method for the stereoselective synthesis of cyclopropanes [1-3]. Indeed, the vast majority of chiral catalysts developed for carbenoid chemistry were specifically designed for asymmetric cyclopropanation [1-3]. In recent years, however, a number of other enantioselective cydoadditions have been reported. 

Stereoselective synthesis of /1-amino esters via asymmetric aldol-type and aza-Diels-Alder reactions has been reviewed.81 Siliranes react cleanly with benzaldehyde to produce oxasilacyclopentanes—with inversion—under conditions of Bu OK catalysis enolizable aldehydes yield silyl enol ethers.82... 

Asymmetric intramolecular Wittig reaction. Trost and Curran2 have examined eight readily available optically active phosphines in a stereoselective synthesis of the ilikctone (2), a useful intermediate to several natural products. Of these, CAMP is dearly the most efficient phosphine for this purpose (equation I). 

It is also important to note that the potential synthetic utility of the asymmetric alkylation protocol discussed in this section has been fruitfully demonstrated by its application to the stereoselective synthesis of various biologically adive natural products possessing unique a-amino acid derivatives as their structural components [27,28]. 

Recently, Maeda and coworkers utilized the (S, S) -le-catalyzed asymmetric alkylation of phenylglycine-derived Schiffbase 42 (R1 = Ph) for the stereoselective synthesis of a 4-hydroxy-2-phenylproline framework [27]. After hydrolysis and transesterification, the resulting (S)-49 was derivatized to its N-tosylate 50. Subsequent treatment of 50 with Br2 in CH2C12 resulted in the formation of y-lactone 51 with high diastereos-electivity this was then treated with NaH in methanol to give essentially pure (2 S,4R)-4-hydroxy-2-phenylproline derivative 52 in 80% yield from 50 (Scheme 5.25). 

An enantioselective Strecker reaction involving Brpnsted acid catalysis uses a BINOL-phosphoric acid, which affords ees up to 93% in hydrocyanations of aromatic aldimines in toluene at -40 °C.67 The asymmetric induction processes in the stereoselective synthesis of both optically active cis- and trans-l-amino-2-hydroxycyclohexane-l -carboxylic acids via a Strecker reaction have been investigated.68 A 2-pyridylsulfonyl group has been used as a novel stereocontroller in a Strecker-type process ees up to 94% are suggested to arise from the ability of a chiral Lewis acid to coordinate to one of the sulfonyl (g)... 

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