Chiral auxiliaries, diastereoselectivity, asymmetric reactions

Besides their application in asymmetric alkylation, sultams can also be used as good chiral auxiliaries for asymmetric aldol reactions, and a / -product can be obtained with good selectivity. As can be seen in Scheme 3-14, reaction of the propionates derived from chiral auxiliary R -OH with LICA in THF affords the lithium enolates. Subsequent reaction with TBSC1 furnishes the 0-silyl ketene acetals 31, 33, and 35 with good yields.31 Upon reaction with TiCU complexes of an aldehyde, product /i-hydroxy carboxylates 32, 34, and 36 are obtained with high diastereoselectivity and good yield. Products from direct aldol reaction of the lithium enolate without conversion to the corresponding silyl ethers show no stereoselectivity.32... 

The reaction was first carried out with the substrate bearing the chiral auxiliary. Scheme 5-64 shows the asymmetric cyclopropanation reaction using 2,4-pentandiol as a chiral auxiliary.115 Scheme 5-65 illustrates the use of optically pure 1,2-frafts-cyclohexanediol as a chiral auxiliary in asymmetric Simmons-Smith cyclopropanation.116 Excellent yield and diastereoselectivity are obtained in most cases. 

The nonracemic 2/7-1,3-benzoxazin-4(3//)-one 202 was successfully applied as a chiral auxiliary in asymmetric transformations the titanium enolate-mediated aldol reactions of its A-acyl derivatives provided the products in high yields and with excellent diastereoselectivity <1996SL455, 1996TL5565>. 

The A -acyl derivatives of 4-substituted-3,4,5,6-tetrahydro-27/-l,3-oxazin-2-ones proved to behave as effective chiral auxiliaries in asymmetric enolate alkylations and aldol reactions, the stereoselectivities of which were found to be higher for 4-isopropyl than for 4-phenyl derivatives <2006OBC2753>. The transformations of 4-isopropyl-6,6-dimethyl-3-propa-noyl-3,4,5,6-tetrahydro-2/7-l,3-oxazin-2-one 251 to 252 or 253 proceeded with excellent diastereoselectivities (Scheme 47). 6,6-Dimethyl substitution within the oxazine ring facilitated exclusive exocyclic cleavage upon hydrolysis of the C-alkylated and the aldol products 252 and 253, to furnish a-substituted carboxylic acids 254 or a-methyl-/ -hydroxycarboxylic acids 256. 

Asymmetric Radical Reactions. Several reports have documented the utility of nonracemic fra/w-2,5-dimethylpyrrolidine as a chiral auxiliary in asymmetric radical reactions. For example, the addition of -hexyl, cyclohexyl, and f-butyl radicals to the chiral acrylamide of 4-oxopentenoic acid provided four diastere-omeric products resulting from a- and p-addition (eq 7). The isomers resulting from p-addition were formed with no diastereoselectivity however, the isomers resulting from a-addidon were formed in ratios of 16 1,24 1, and 49 1. Unfortunately, the application of this chemistry is limited due to the poor regioselectivity in the addition and difficulty in removal of the chiral auxiliary. 

Asymmetric Pericyclic Reactions. Several reports illustrate the utility of fra/is-2,5-dimethylpyirolidine as a chiral auxiliary in asymmetric Claisen-type rearrangements, [4 + 2], and [2 + 2] cycloaddition reactions. The enantioselective Claisen-type rearrangement of N,0-ketene acetals derived from tram-2,5-dimethylpyrrolidine has been studied. For example, the rearrangement of the iV.O-ketene acetal, formed in situ by the reaction of A-propionyl-fra/w-(25,55)-dimethylpyrrolidine with ( )-crotyl alcohol, affords the [3,3]-rearrangement product in 50% yield and 10 1 diastereoselectivity (eq 9). 

The utility of thiazolidinethione chiral auxiliaries in asymmetric aldol reactions is amply demonstrated in a recent enantioselective synthesis of apoptolidinone. This synthesis features three thiazolidinethione propionate aldol reactions for controlling the configuration of 6 of 12 stereogenio centers <05JA13810>. For example, addition of aldehyde 146 to the enolate solution of A -propionyl thiazolidinethione 145 produces aldol product 147 with excellent selectivity (>98 2) for the Evans syn isomer. Compound 145 also undergoes diastereoselective aldol addition with bisaryl aldehyde 148 to give the Evans syn product 149, which is converted to eupomatilone-6 in 6 steps <05JOC9658>. 

Introduction. (l/ ,5i -2//-l,5-Benzodithiepin-3(4/ -one 1,5-dioxide (C2-symmetric his-sulfoxide 1) has been used as a chiral auxiliary for asymmetric desymmetrization of cyclic meso-1,2-diols via diastereoselective acetal cleavage reaction. The procedure consists of three steps (eq 1), that is, acetalization (step 1), acetal cleavage reaction followed by benzylation (step 2), and hydrolysis of the vinyl ether (step 3). Due to the Ca-symmetry of 1, the chiral auxiliary gives only one product in step 1. In addition, no regio- or geometric isomers of the enol ether are formed in step 2. This reagent can be recovered by acid-promoted hydrolysis and reused. 

In Diels-Alder (D-A) reactions, racemic products are obtained from enantiomeric diene or dienophile. D-A reactions are widely applied in the synthesis of bioactive asymmetric natural products and hence enantio- and diastereoselectivities of the D-A reactions are very much needed to get the desired products as major products. Several approaches have been developed in the last three decades in this respect by the use of different Lewis acid catalysts as chiral auxiliary or asymmetric catalysts. Catalytic D-A reactions have twofold benefits. On one side, it provides high enantiomeric/ diastereomeric excess of product and on the other side, it affords high yield of products by reducing the activation energy of the transition states (TSs). In NED D-A reactions, it lowers the LUMO energy of the dienophile and in lED D-A reactions, it lowers the energy of LUMO of the diene so that the reaction occurs at low temperature with ease (Fig. 3.10). At higher temperature the stereoselectivity of the D-A reactions is lost. 

Lewis acid-mediated asymmetric Diels-Alder reactions between 2H-azirines 59, bearing chiral auxiliaries, with enophiles such as 60 afforded mixtures of bicyclic aziridine-2-carboxylates 61 (Scheme 3.20) [68]. 8-Phenylmenthol appeared to be the auxiliary of choice in this reaction in terms of yield and diastereoselectivity. 

The reaction of methyl 4-formyl-2-mcthylpentanoate and the chiral (Z)-2-butenylboronate clearly shows 52b-103, however, that the chiral auxiliary is not sufficiently enantioselective to increase the diastereoselectivity to >90% in either the matched [( + )-auxiliary] or mismatched [(—)-auxiliary] case. This underscores the requirement that highly enantioselective chiral reagents be utilized in double asymmetric reactions. 

McKervey and Ye have developed chiral sulfur-containing dirhodium car-boxylates that have been subsequently employed as catalysts for asymmetric intramolecular C-H insertion reactions of y-alkoxy-ot-diazo-p-keto esters. These reactions produced the corresponding ci -2,5-disubstituted-3(2H)-furanones with diastereoselectivities of up to 47% de. Moreover, when a chiral y-alkoxy-a-diazo-p-keto ester containing the menthyl group as a chiral auxiliary was combined with rhodium(II) benzenesulfoneprolinate catalyst, a considerable diastereoselectivity enhancement was achieved with the de value being more than 60% (Scheme 10.74). 

Waldmann used (R) and (5>aminoacid methyl esters and chiral amines as chiral auxiliaries in analogous aza-Diels-Alder reactions with cyclodienes.111 The diastereoselectivity of these reactions ranged from moderate to excellent and the open-chain dienes reacted similarly. Recently, the aza-Diels-Alder reaction was used by Waldmann in the asymmetric synthesis of highly functionalized tetracyclic indole derivatives (Eq. 12.45), which is useful for the synthesis of yohimbine- and reserpine-type alkaloids.112... 

Dienes with Chiral Auxiliaries The use of dienes with the chiral auxiliary attached to the C-l position of the dienes is the most popular in asymmetric Diels-Alder reactions.59 In 1980, Trost reported high asymmetric induction in the Diels-Alder reaction using l-(S)-0-methylmandeloxy-l,4-butadiene59a However, the result obtained by Trost et al. has remained unique for more than a decade, at least in terms of enantioselectivity. The asymmetric Diels-Alder reaction of chiral diene-amines with nitroalkenes gives aminocyclohexenes with good diastereoselectivity (Eq. 8.37).60 The development in the area of chiral dienes is slow it may be due to the difficulty of preparing these compounds. 

Early work on the asymmetric Darzens reaction involved the condensation of aromatic aldehydes with phenacyl halides in the presence of a catalytic amount of bovine serum albumin. The reaction gave the corresponding epoxyketone with up to 62% ee.67 Ohkata et al.68 reported the asymmetric Darzens reaction of symmetric and dissymmetric ketones with (-)-8-phenylmenthyl a-chloroacetate as examples of a reagent-controlled asymmetric reaction (Scheme 8-29). When this (-)-8-phenyl menthol derivative was employed as a chiral auxiliary, Darzens reactions of acetone, pentan-3-one, cyclopentanone, cyclohexanone, or benzophenone with 86 in the presence of t-BuOK provided dia-stereomers of (2J ,3J )-glycidic ester 87 with diastereoselectivity ranging from 77% to 96%. 

Asymmetric Diels-Alder reactions. Unlike methyl crotonate, which is a weak dienophile, chiral (E)-crotonyl oxazolidinones when activated by a dialkylaluminum chloride (1 equiv.) are highly reactive and diastereoselective dienophiles. For this purpose, the unsaturated imides formed from oxazolidinones (Xp) derived from (S)-phenylalanol show consistently higher diastereoselectivity than those derived from (S)-valinol or (IS, 2R)-norephedrine. The effect of the phenyl group is attributed in part at least to an electronic interaction of the aromatic ring. The reactions of the unsaturated imide 1 shown in equation (I) are typical of reactions of unsaturated N-acyloxazolidinones with cyclic and acyclic dienes. All the Diels-Alder reactions show almost complete endo-selectivity and high diastereoselectivity. Oxazolidinones are useful chiral auxiliaries for intramolecular Diels-Alder... 

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