Stereocontrol level

Recently, solicon-tethered thastereoselecdve ISOC reactions have been reported, in which effective control of remote acyclic asymmetry can be achieved fEq 8 91) Whereas ISOC occur stereoselecdvely, INOC proceeds v/ith significandy lower levels of diastereoselecdon The reaction pathways presented in Scheme 8 28 suggest a plausible hypothesis for the observed difference of stereocontrol The enhanced selecdvity in reacdons of silyl nitronates may be due to l,3- illylic strain The near-linear geometry of nitnle oxides precludes such differendadng elements fScheme 8 28 ... 

Cations which are covalently attached to the allyl anion part by a cr-bond and have sufficient Lewis acid properties offer the broadest versatility and highest levels of stereocontrol, since the C—C bond-forming step can occur in a pericyclic process9 accompanied by allylic inversion. It is reasonable to assume the prior assembly of both reaction partners in an open-chain complex, in which usually the (F )-oxonium ion, avoiding allylic 1,3-strain10, is predominant. 

The E. coli enzyme accepts substitution on either cosubstrate propanal, acetone or 1-fluoro-2-propanone can replace the donor and a variety of aldehydes can replace the acceptor moiety 3. Shortcomings are the relatively low conversion rates obtained for any substrate analog and the as yet unidentified level of relative stereocontrol induced upon substitution at the nucleophilic carbon. 

Planar chirality has proven to be a very potent means in asymmetric catalysis to achieve high levels of stereocontrol (see Sect. 3) because planar chiral systems offer... 

Ferrocen-l,l -diylbismetallacycles are conceptually attractive for the development of bimetal-catalyzed processes for one particular reason the distance between the reactive centers in a coordinated electrophile and a coordinated nucleophile is self-adjustable for specific tasks, because the activation energy for Cp ligand rotation is very low. In 2008, Peters and Jautze reported the application of the bis-palladacycle complex 56a to the enantioselective conjugate addition of a-cyanoacetates to enones (Fig. 31) [74—76] based on the idea that a soft bimetallic complex capable of simultaneously activating both Michael donor and acceptor would not only lead to superior catalytic activity, but also to an enhanced level of stereocontrol due to a highly organized transition state [77]. An a-cyanoacetate should be activated by enolization promoted by coordination of the nitrile moiety to one Pd(II)-center, while the enone should be activated as an electrophile by coordination of the olefinic double bond to the carbophilic Lewis acid [78],... 

This homoenolate methodology has been extended to the use of nitrones 170 as electrophiles [72]. Scheldt and co-workers have shown that enantiomerically enriched y-amino esters 172 can be prepared with excellent levels of stereocontrol from an enal 27 and a nitrone 170 using the NHC derived from triazolium salt 164 (Scheme 12.37). The oxazinone product 171, formally a result of a [3-1-3] cycloaddition, is cleaved to afford the y-amino ester product 172. The reaction shows broad substrate scope, as a range of substituted aryl nitrones containing electron donating and withdrawing substituents are tolerated, while the enal component is tolerant of both alkyl and aryl substituents. 

The use of silylketals derived from allylic alcohols and 1-substituted nitroethanols for the stereocontrolled synthesis of 3,4,5-trisubstituted 2-isoxazolines via intramolecular 1,3-dipolar cycloaddition has been demonstrated. Here again, the use of silyl nitronates (ISOC) increases the level of selectivity compared to INOC (Eq. 8.92).145... 

We were interested in applications of the high level of stereocontrol associated with the asymmetric Birch reduction-alkylation to problems in acyclic and heterocyclic synthesis. The pivotal disconnection of the six-membered ring is accomplished by utilization of the Baeyer-Villiger oxidation (Scheme 7). Treatment of cyclohexanones 25a and 25b with MCPBA gave caprolactone amides 26a and 26b with complete regiocon-trol. Acid-catalyzed transacylation gave the butyrolactone carboxylic acid 27 from 26a and the bis-lactone 28 from 26b cyclohexanones 31a and 31b afforded the diastereomeric lactones 29 and 30. ... 

As previously noted (Scheme 1), prior to the explosion of interest in iminium ion catalysis as a platform for the activation of a,P-unsaturated carbonyl compounds in 2000, Yamaguchi [29-33] and Taguchi [34] showed that proline derived bi-func-tional catalysts could provide an effective platform for the ion-pair controlled conjugate addition of malonates and nitroalkanes to a, 3-unsaturated ketones with good levels of stereocontrol. 

Fustero has devised an intramolecular version of the iminium ion catalysed conjugate addition of nitrogen in the preparation of a series of simple pyrrolidine and piperidine derivatives [115]. The reactions proceed in chloroform to give the target heterocycles in good yield and excellent levels of stereocontrol (Scheme 32). 

Cordova has described a reductive Mannich protocol that proceeds with high chemo-, diastereo- and enantioselectivity [179]. Conjugate reduction of p,p-disub-stituted enal 118 with Hantzsch ester 119 in the presence of 30 (10 mol%) and benzoic acid (10 mol%) (63 h, -20 °C) followed by addition of a-iminoglyoxylate 120 and stirring for a further 24 h gave the product (121) with excellent levels of relative and absolute stereocontrol (10 1-50 1 dr 95-99% ee) (Scheme 49). 

List was the first to explore this possibility, examining the Hantzsch ester mediated reduction of a,P-unsaturated aldehydes [209], Using 20 mol% of the binaphthyl derived phosphonate salt of morpholine (153) in dioxane at 50 °C, a series of P-aryl a,P-unsaturated aldehydes underwent transfer hydrogenation with Hantzsch ester 154 with excellent levels of absolute stereocontrol (96-98% ee) (Scheme 63). The method was also applied to the aliphatic substrates ( )-citral and famesal to give the mono-reduced products in 90% and 92% ee, respectively. Significantly, in line with many of the chiral secondary amine catalysed transformations described above the reactions follow a simple and practical procedure without the need for exclusion of moisture and air. 

The chiral center on the piperidine ring retained stereochemical integrity to this point in the synthesis, and provided the basis for a relatively modest level (72 28 threo erythro) of substrate-based stereocontrol in the BH3-THF/H202 hydroboration/oxidation of the... 

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