Stereoselective synthesis ester

Among alkali metal enolates, those derived from ketones are the most robust one they are stable in etheric solutions at 0 C. The formation of aldehyde enolates by deprotonation is difficult because of the very fast occurring aldol addition. Whereas LDA has been reported to be definitely unsuitable for the generation preformed aldehyde enolates [15], potassium amide in Hquid ammonia, potassium hydride in THE, and super active lithium hydride seem to be appropriate bases forthe metallation of aldehydes [16]. In general, preformed alkali metal enolates of aldehydes did not find wide application in stereoselective synthesis. Ester enolates are very frequently used, although they are more capricious than ketone enolates. They have to be formed fast and quantitatively, because otherwise a Claisen condensation readily occurs between enolate and ester. A complication with ester enolates originates from their inherent tendency to form ketene under elimination... 

Ishihara K., Hattori K., Yamamoto H. Highly Stereoselective Synthesis of p-Amino Esters via Donhle Stereodifferentiation in EnantioseL Synth. fi-Amino Acids 1997 159, Ed. Juaristi E., Pb. Wiley-VCH N.Y. 

Ester (1) is a perfumery compound from civet cats. What factor favours a stereoselective synthesis ... 

In ref. [123], 1-triisopropylbenzenesulfonyl- or mesitylenesulfonyl-5-(pyridine-2-yl)-tetrazole (VIII) was successfully used as a coupling agent for the synthesis of protected di- and trinucleotides. In comparison with the sulfonic acid tetrazolides these are able to achieve a stereoselective synthesis of dinucleoside monophosphate aryl esters. 311 1241... 

Tsuboi and coworkers20 reported a stereoselective synthesis of 3,5-alkadienic ester obtained from 2,4-dienoic isomers and their NMR data. 

Complex hydrides have been used rather frequently for the conjugate reduction of activated dienes92-95. Just and coworkers92 found that the reduction of a,ft-unsaturated ketene 5,5-acetals with lithium triethylborohydride provided mixtures of 1,4- and 1,6-reduction products which were transformed into enals by treatment with mercuric salts (equation 27). Likewise, tetrahydro-3//-naphthalen-2-ones can be reduced with L-Selectride to the 1,6-reduction products93 -95 this reaction has been utilized in the stereoselective synthesis of several terpenes, e.g. of (/ )-(—)-ligularenolide (equation 28)95. Other methods for the conjugate reduction of acceptor-substituted dienes involve the use of methylcopper/diisobutylaluminum hydride96 and of the Hantzsch ester... 

In the particular case in which the carbonyl group belongs to a carboxylic acid derivative, such as an ester (17) or an amide (18) (or other functional groups which may be converted into it by a FGI), then they may be disconnected according to the "orthoacetate-modification" of the retro-Claisen rearrangement (Schemes 7.7 and 7.8) developed mainly by Eschenmoser [7] and Ziegler [8], independently, in the synthesis of alkaloids, and Johnson in a very simple and yet highly stereoselective synthesis of squalene [9]. 

Scheme 3.7. Diastereoselective formation of /S-silyl ( )- or (Z)-ester enolates by silylcuprate conjugate addition followed by alkylation with aldehydes [49]. Stereoselective synthesis of ( )-and (Z)-allyl silanes [50].

The Claisen rearrangement of allyl vinyl ethers is a classic method for the stereoselective synthesis of y,J-unsaturated esters. The allylic C-H activation is an alternative way of generating the same products [135]. Reactions with silyl-substituted cyclohexenes 197 demonstrate how the diastereoselectivity in the formation of 198 improves (40% to 88% de) for the C-H insertion reactions as the size of the silyl group increases (TMS to TBDPS) (Tab. 14.14). Indeed, in cases where there is good size differentiation between the two substituents at a methylene site, high diastereo- and enantioselectivity is possible in the C-H activation. 

O. Varela, G. M. de Fina, and R. M. de Lederkremer, The reaction of 2-hydroxyglycal esters with alcohols in the presence of N-iodosuccinimide, stereoselective synthesis of a anomers of alkyl 3-deoxyhex-2-enopyranosides and 3,4-dideoxyhex-3-enopyranosid-2-uloses, Carbohydr. Res., 167 (1987) 187-196. 

Addition reactions of allylic boron compounds have proven to be quite general and useful. Several methods for synthesis of allylic boranes and boronate esters have been developed.36 37 The reaction has found some application in the stereoselective synthesis of complex structures. 

This modification of the Curtius reaction has been used extensively in many laboratories and has been found to be generally applicable. Some examples from the literature include the stereoselective synthesis of a wide variety of cyclopropylamine derivatives from the corresponding acids,11-13 the stereoselective preparation of some substituted norbornylamines from easily isomerized acids,14 the preparation of some 1-aminocyelobutancearboxylic acids from the corresponding acid esters,18 the preparation of a substituted cyclobutanone from... 

S. Sano, K. Saito, Y. Nagao, Tandem reduction-olefination for the stereoselective synthesis of (Z)-ot-fluoro-ot, -unsaturated esters. Tetrahedron Lett. 44 (2003) 3987-3990. 

The other stereoselective synthesis/281 shown in Scheme 8, foresees conversion of Boc-L-Asp-OtBu 20 into the related (3-aldehyde 22 via the Weinreb amide 21 and its reduction with diisobutylaluminum hydride (DIBAL-H). Wittig condensation of 22 with the ylide derived from (3-carboxypropyl)triphenylphosphonium bromide using lithium hexamethyldisilaza-nide at —78 to 0°C, produces the unsaturated compound 23 which is catalytically hydrogenated to the protected L-a-aminosuberic acid derivative 24. Conversion of the co-carboxy group into the 9-fluorenylmethyl ester, followed by TFA treatment and reprotection of the M -amino group affords Boc-L-Asu(OFm)-OH (25). 

Enantiomeric resolution via the acetyl derivative with acylase or chymotryptic hydrolysis of an alkyl ester was not attempted. Conversely, a stereoselective synthesis of the Boc-Phe(4-CH2C02tBu)-0H has recently been reported11291 which, however, lacks selective protection for incorporation to any position of a synthetic peptide. 

Vinyl acetate Stereoselective synthesis of an insecticide-esters [127]... 

It has recently been demonstrated that a stereoselective synthesis of dipeptides by hydrogenation of the corresponding monodehydropeptides (N-protected free acids or methyl esters) is possible. In this reaction, chiral catalysts, for example BPPM (13), in the form of a Wilkinson complex have been used. These are superior to the corresponding DIOP complexes (DIOP = P,P -[2,2-dimethyl-l,3-dioxolane-4,5-bis(methylene)]bis(diphenylphosphane). A d.s. value of 90—99% was generally obtained 49 ... 

The enzyme-catalyzed regio- and enantioselective reduction of a- and/or y-alkyl-substituted p,5-diketo ester derivatives would enable the simultaneous introduction of up to four stereogenic centers into the molecule by two consecutive reduction steps through dynamic kinetic resolution with a theoretical maximum yield of 100%. Although the dynamic kinetic resolution of a-substituted P-keto esters by chemical [14] or biocatalytic [15] reduction has proven broad applicability in stereoselective synthesis, the corresponding dynamic kinetic resolution of 2-substituted 1,3-diketones is rarely found in the literature [16]. 

The trausmetallation of a-silylated ester lithium euolates by maguesium bromide aud subsequeut Peterson olefination provides a stereoselective synthesis of a,-unsaturated esters (equatiou 94). 

Allylic esters of fluoroacetic acid were used in the Ireland silyl ketene acetal rearrangement procedures by the Welch group at Albany [164]. For example, Eq. (53) shows a highly diastereoselective rearrangement which formed an early stage in syntheses of 2,3-dideoxy-2-fluoro-3-C-methyl pentose nucleosides [165, 166]. If a stereoselective synthesis of a functionalised monofluorocompound is... 

The reaction of the enol diethylphosphate of a p-keto ester with a primary dialkyl cuprate provides a useful stereoselective synthesis of / -alkyl-a,j -unsaturated esters (equation II).3 This coupling was used in two steps in a recent synthesis of mokupalide, a novel C30-isoprenoid.A... 

A new stereoselective synthesis of 1,2,3-trisubstituted cyclopentanes based on the Wag-ner-Meerwein rearrangement of a 7-oxabicyclo[2.2.1]heptyl 2-cation starts with the Diels-Alder product of maleic anhydride and a furan (78TL2165, 79TL1691). The cycloadduct was hydrogenated and subjected to methanolysis. The half acid ester (47) was then electrolyzed at 0 °C to generate a cationic intermediate via the abnormal Kolbe reaction (Hofer-Moest reaction). Work-up under the usual conditions provided the 2-oxabicyclo[2.2.1]heptane (48) in 83% yield. Treatment of this compound in turn with perchloric acid effected hydrolysis of the ketal with formation of the trisubstituted cyclopentane (49) in nearly quantitative yield (Scheme 11). Cyclopentanes available from this route constitute useful... 

M. T. Reetz, T. Winsch, and K. Harms, Stereoselective synthesis of a, y-diamino-(3-hydroxy amino acid esters A new class of amino acids, Tetrahedron Asymm. 7 371 (1990). 

Dynamic Resolution of Chirally Labile Racemic Compounds. In ordinary kinetic resolution processes, however, the maximum yield of one enantiomer is 50%, and the ee value is affected by the extent of conversion. On the other hand, racemic compounds with a chirally labile stereogenic center may, under certain conditions, be converted to one major stereoisomer, for which the chemical yield may be 100% and the ee independent of conversion. As shown in Scheme 62, asymmetric hydrogenation of 2-substituted 3-oxo carboxylic esters provides the opportunity to produce one stereoisomer among four possible isomers in a diastereoselective and enantioselective manner. To accomplish this ideal second-order stereoselective synthesis, three conditions must be satisfied (1) racemization of the ketonic substrates must be sufficiently fast with respect to hydrogenation, (2) stereochemical control by chiral metal catalysts must be efficient, and (3) the C(2) stereogenic center must clearly differentiate between the syn and anti transition states. Systematic study has revealed that the efficiency of the dynamic kinetic resolution in the BINAP-Ru(H)-catalyzed hydrogenation is markedly influenced by the structures of the substrates and the reaction conditions, including choice of solvents. 

Azetidine-2-carboxylic acid (2) is commercially available. It is readily prepared as the racemate by refluxing 2,4-dibromobutyric acid ester with benzhydrylamine in acetonitrile. If benzyl 2,4-dibromobutyrate is treated with benzhydrylamine, the resulting benzyl TV-benz-hydryl-D,L-azetidine-2-carboxylate is hydrogenolytically processed to D,L-azetidine-2-car-boxylic acid in a one-step reaction. 101,107 Resolution of the racemate can be performed by the method of Vogler 108 via fractional crystallization of the Z-D,L-Aze-OH-H-Tyr-N2H3 salt thereby the salt of the D-imino acid precipitates first from methanol. 96 A stereoselective synthesis of A-tosyl-L-azetidine-2-carboxylic acid can be achieved by a two-step reaction from N-tosyl-L-homoserine lactone. 94 ... 

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