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Oxazolidinone asymmetric aldol reactions

Conversion of 2 to the highly crystalline oxazolidinone 3 with phosgene has been described by Thornton who has employed this substance as a chiral auxiliary in asymmetric aldol reactions of its N-propionyl derivative. Kelly has also used an oxazoline derived from 3 as a chiral auxiliary in asymmetric alkylation of a glycolate enolate. Oxazolidinone 3 has also been prepared from 2 with diethyl carbonate in the presence of potassium carbonate. The conversion of 2 to the oxazolidinone 3 is accomplished using triphosgene in this procedure because of the high toxicity of phosgene. [Pg.216]

The approach for the enantioselective aldol reaction based on oxazolidinones like 22 and 23 is called Evans asymmetric aldol reaction.14 Conversion of an oxazolidinone amide into the corresponding lithium or boron enolates yields the Z-stereoisomers exclusively. Reaction of the Z-enolate 24 and the carbonyl compound 6 proceeds via the cyclic transition state 25, in which the oxazolidinone carbonyl oxygen and both ring oxygens have an anti conformation because of dipole interactions. The back of the enolate is shielded by the benzyl group thus the aldehyde forms the six-membered transition state 25 by approaching from the front with the larger carbonyl substituent in pseudoequatorial position. The... [Pg.161]

Sharma, A. Sunoj, R. Enamine versus oxazolidinone What controls stereoselectivity in proline-catalyzed asymmetric aldol reactions , Angew. Chem. Int. Ed. 2010, 49, 6373-6377. [Pg.442]

Other oxazolidinones have been used as chiral auxiliaries in asymmetric aldol reactions. Bomane derivatives 1.121 (X = O or S) and 1.122 are readily transformed into V-acyl derivatives. The reactions of their boron or titanium enolates with aldehydes give the same selectivities as Evans s reagents [426, 428, 429, 431, 436], iV-Acylimidazolidinones 1.131 and 1.132 [449, 1270] lead to similar results, but the selectivities observed are somewhat lower. [Pg.328]

The asymmetric aldol reaction using the Evans oxazolidinone auxiliary has been used in a number of syntheses. Suggest reagents for the preparation of the imide 2, used in a synthesis of cytovaricin and explain the stereoselectivity of this reaction. Suggest how you would obtain the other syn aldol product and explain the difference in the stereoselectivity. [Pg.102]

Asymmetric aldol reaction of aldehyde and chiral acyl oxazolidinone, the Evans chiral aitxihary. [Pg.237]

Since oxazolidines and oxazolidinones are fiindamental structural classes in organic chemistry (chiral auxiliaries) and in medicinal chemistry (e.g., Linezolid) and since they mask P-hydroxy-a-amino acids, which are widespread in various biologically active compounds and in natural products, the enantioselective synthesis of oxazolidinones is a challenging topic. Indeed, a new method for the direct synthesis of chiral 4-carboxyl oxazolidinones 168 by the catalytic asymmetric aldol reaction of isocyanato-malonate diesters 166 with aldehydes 167 in the presence of a thiourea catalyst (TUC) was developed. Since the resulting chiral 4-carboxy oxazolidinones are the equivalent of P-hydroxy-a-amino acids, this procedure... [Pg.342]

In the first formal asymmetric synthesis of phorbol, a tigliane diterpene, Wender and co-workers utilized a chiral oxazolidinone-based asymmetric aldol reaction to produce chiral alcohol 43, a non-Evans syn product as a single diastereomer in 96% yield. ... [Pg.540]

Asymmetric aldol reactions utilizing chiral auxiliaries or templates have emerged as one of the most reliable methods in organic synthesis. Both syn-and anti-selective aldol reactions have been developed over the years. The field of asymmetric syn aldol reactions has been largely advanced by Evans since his development of dibutylboron enolate aldol chemistry based on amino acid-derived chiral oxazolidinones. This method requires expensive dibutylboron trifiate, hosvever, and the amino acid-derived chiral auxiliary is only readily available in one enantiomer and thus only provides one enantiomer of the syn aldol. Several methods developed on the basis of titanium enolates provide convenient access to both Evans and non-Evans syn aldol products. [Pg.80]

Among chiral auxiliaries, l,3-oxazolidine-2-thiones (OZTs) have attracted important interest thanks to there various applications in different synthetic transformations. These simple structures, directly related to the well-documented Evans oxazolidinones, have been explored in asymmetric Diels-Alder reactions and asymmetric alkylations (7V-enoyl derivatives), but mainly in condensation of their 7V-acyl derivatives on aldehydes. Those have shown interesting characteristics in anti-selective aldol reactions or combined asymmetric addition. Normally, the use of chiral auxiliaries which can accomplish chirality transfer with a predictable stereochemistry on new generated stereogenic centers, are indispensable in asymmetric synthesis. The use of OZTs as chiral copula has proven efficient and especially useful for a large number of stereoselective reactions. In addition, OZT heterocycles are helpful synthons that can be specifically functionalized. [Pg.164]

In 1992 Ghosh and co-workers provided the first example of the utility of rigid cis-1 -amino-2-indanol-derived oxazolidinone 36 as the chiral auxiliary in the asymmetric. vv//-aldol reaction.60-61 Aldol condensation of the boron enolate of 37 with various aldehydes proceeded with complete diastereofacial selectivity. Effective removal and recovery of the chiral auxiliary was carried out under mild hydrolysis conditions (Scheme 24.6). As both enantiomers of the chiral auxiliary were readily available, both enantiomers of the. yyn-aldol could be prepared with equal asymmetric induction. [Pg.466]

A stereocontrolled synthesis of the biologically active neolignan (+)-dehydrodiconiferyl alcohol, which was isolated from several Taxus species, was achieved via Evans asymmetric aldol condensation [58] using ferulic acid amide derived from D-phenylalanine. The reaction steps are shown in Fig. 9. This stereocontrolled reaction is also useful for preparing the enantiomer of (+)-dehydroconiferyl alcohol using chiral auxiliary oxazolidinone prepared from L-phenylalanine. This reaction also enables the syntheses of other natural products that possess the same phenylcoumaran framework. [Pg.121]

P-Ketoimide Aldol Reactions. As has been demonstrated, chiral oxazolidinones provide a gateway into asymmetric p-... [Pg.63]

As above (eq 1), a major drawback of this reagent is the lack of a readily available enantiomer. There are many alternative methods for the enantioselective propionate aldol reaction. The most versatile chirally modified propionate enolates or equivalents are N-propionyl-2-oxazolidinones, a-siloxy ketones, boron enolates with chiral ligands, as well as tin enolates. Especially rewarding are new chiral Lewis acids for the asymmetric Mukaiyama reaction of 0-silyl ketene acetals. Most of these reactions afford s yw-aldols good methods for the anri-isomers have only become available recently. ... [Pg.190]

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. ... [Pg.307]

Phenylalanine-derived oxazolidinone has heen used in O Scheme 52 as a chiral auxiliary for as)rmmetric cross-aldolization (Evans-aldol reactions [277,278,279,280,281,282,283,284, 285]). The 6-deoxy-L-glucose derivative 155 has heen prepared by Crimmins and Long [286] starting with the condensation of acetaldehyde with the chlorotitanium enolate of O-methyl glycolyloxazohdinethione 150. A 5 1 mixture is obtained from which pure 151 is isolated by a single crystallization. After alcohol silylation and subsequent reductive removal of the amide, alcohol 152 is obtained. Swem oxidation of 152 and subsequent Homer-Wadsworth-Emmons olefination provides ene-ester 153. Sharpless asymmetric dihydroxylation provides diol 154 which was then converted into 155 (O Scheme 60) (see also [287]). [Pg.901]

The asymmetric total synthesis of cytotoxic natural product (-)-FRI 82877 was accomplished by D.A. Evans and co-workers." " To establish the absolute stereochemistry, a boron mediated aldol reaction was utilized applying (R)-4-benzyl-A/-propionyl-2-oxazolidinone" as a chiral auxiliary to yield the syn aldol product. [Pg.163]

Application of asymmetric alkylation with Evans auxiliaries Aldol Reactions with Evans Oxazolidinones The syn aldol reaction with boron enolates... [Pg.599]

The Evans aldol reaction of chiral, crotonyl-substituted oxazolidinones had proven effective for the asymmetric synthesis of hydroxypropionates... [Pg.253]

Excellent levels of asymmetric induction in various carbon-carbon bond-forming reactions, such as alkylation, conjugate addition and aldol reactions, are possible using a suitable chiral enolate and an achiral electrophile under appropriate reaction conditions. A variety of chiral enolates have been investigated, the most common and useful synthetically being those with a chiral auxiliary attached to the carbonyl group. The 2-oxazolidinone group, introduced by Evans, has proved to be an efficient and popular chiral auxiUary. Both enantiomers of the product are... [Pg.36]


See other pages where Oxazolidinone asymmetric aldol reactions is mentioned: [Pg.613]    [Pg.137]    [Pg.317]    [Pg.421]    [Pg.162]    [Pg.330]    [Pg.41]    [Pg.42]    [Pg.38]    [Pg.533]    [Pg.535]    [Pg.15]    [Pg.110]    [Pg.272]    [Pg.134]    [Pg.812]    [Pg.8]    [Pg.296]    [Pg.73]    [Pg.436]    [Pg.436]    [Pg.176]    [Pg.247]    [Pg.212]   
See also in sourсe #XX -- [ Pg.215 , Pg.216 , Pg.217 , Pg.218 ]




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