Esters asymmetric synthesis

Y. Stereoselective conjugate addition of an a-sulfmyl carbanion to a,/ -unsaturated esters asymmetric synthesis of cycloalkanecarboxy-lates. Synlett 1997, 449-450. 

Hertweck, C. and Boland, W. (2000) Tandem reduction-chloroallylboration of esters asymmetric synthesis of lamoxirene, the spermatozoid releasing and attracting pheromone of the Laminariales (Phaeophyceae)./. Org. Chem., 65, 2458-2463. 

Simple esters cannot be allylated with allyl acetates, but the Schiff base 109 derived from o -amino acid esters such as glycine or alanine is allylated with allyl acetate. In this way. the o-allyl-a-amino acid 110 can be prepared after hydrolysis[34]. The Q-allyl-o-aminophosphonate 112 is prepared by allylation of the Schiff base 111 of diethyl aminomethylphosphonates. [35,36]. Asymmetric synthesis in this reaction using the (+ )-A, jV-dicyclohex-ylsulfamoylisobornyl alcohol ester of glycine and DIOP as a chiral ligand achieved 99% ec[72]. 

Hydrolytic enzymes such as esterases and Upases have proven particularly useful for asymmetric synthesis because of their abiUties to discriminate between enantiotopic ester and hydroxyl groups. A large number of esterases and Upases are commercially available in large quantities many are inexpensive and accept a broad range of substrates. 

Cyclic esters of a-halo boronic acids in asymmetric synthesis 98T10555. 

This is by far the most versatile route to the synthesis of ester-substituted aziridines, especially as the benzhydryl group can easily be cleaved by hydrogenolysis. Wulff has applied this methodology to a short asymmetric synthesis of the antibiotic (-)-chloramphenicol in four steps from p-nitrobenzaldehyde (Scheme 1.34) [61]. In this case it was found that treatment of the aziridine 111 with excess dichloroacetic acid gave the hydroxy acetamide directly, so no separate deprotection step was required. 

A reiterative application of a two-carbon elongation reaction of a chiral carbonyl compound (Homer-Emmonds reaction), reduction (DIBAL) of the obtained trans unsaturated ester, asymmetric epoxidation (SAE or MCPBA) of the resulting allylic alcohol, and then C-2 regioselective addition of a cuprate (Me2CuLi) to the corresponding chiral epoxy alcohol has been utilized for the construction of the polypropionate-derived chain ]R-CH(Me)CH(OH)CH(Me)-R ], present as a partial structure in important natural products such as polyether, ansamycin, or macro-lide antibiotics [52]. A seminal application of this procedure is offered by Kishi s synthesis of the C19-C26 polyketide-type aliphatic segment of rifamycin S, starting from aldehyde 105 (Scheme 8.29) [53]. 

One of the first examples of this type of reaction, using a chiral alcohol as an auxiliary, was the asymmetric synthesis of 2-hydroxy-2-phenylpropanoic acid (atrolactic acid, 3, R1 =C6H5 R3 = CH3) by diastereoselective addition of methyl magnesium iodide to the men-thyl ester of phcnylglyoxylie acid4,5 (Table 22). 

Allylsilanes are available by treatment of allyl acetates and allyl carbonates with silyl cuprates17-18, with antarafacial stereochemistry being observed for displacement of tertiary allyl acetates19. This reaction provides a useful asymmetric synthesis of allylsilanes using esters and carbamates derived from optically active secondary alcohols antarafacial stereochemistry is observed for the esters, and suprafacial stereochemistry for the carbamates20,21. 

Ail extremely useful method for the asymmetric synthesis of substituted amino acids, in particular glutamic acids, is based on optically active bislactim ethers of cyclodipeptides. The lithium etiolates of bislactim ethers (which are prepared easily from amino acids) undergo 1,4-addition to various a,/ -unsaturated esters to give -substituted 2,5-dihydropyrazine-propanoates203-205 with high diastereofacial selectivity, ratio (R/S) > 140-200 1. 

The imines of ( )-(l/ ,2/ ,5/ )-2-hydroxy-3-pinanone and glycine, alanine and norvaline methyl esters were highly successful as Michael donors in the asymmetric synthesis of 2,3-di-substituted glutamates. The chiral azaallyl anions derived from these imines by deprotonation with lithium diisopropylamide in THF at — 80 "C undergo addition to various ,/ -unsaturated esters with modest to high diastereoselectivities210,394. 

The lithium enolate of ethyl V-methoxyacetimidate (55) was also successfully sulfmy-lated by treatment with sulfinate ester 19 (equation 19)87. Sulfoxide 56 was used in an asymmetric synthesis of some /1-hydroxy esters. 

Waldmann H. Amino Add Esters Versatile Chiral Auxiliary Groups for the Asymmetric Synthesis of Nitrogen Heterocycles Synlett 1995 133-141... 

Simple 1,2,4-triazole derivatives played a key role in both the synthesis of functionalized triazoles and in asymmetric synthesis. l-(a-Aminomethyl)-1,2,4-triazoles 4 could be converted into 5 by treatment with enol ethers <96SC357>. The novel C2-symmetric triazole-containing chiral auxiliary (S,S)-4-amino-3,5-bis(l-hydroxyethyl)-l,2,4-triazole, SAT, (6) was prepared firmn (S)-lactic acid and hydrazine hydrate <96TA1621>. This chiral auxiliary was employed to mediate the diastereoselective 1,2-addition of Grignard reagents to the C=N bond of hydrazones. The diastereoselective-alkylation of enolates derived from ethyl ester 7 was mediated by a related auxiliary <96TA1631>. 

Wiskur SL, Fu GC (2005) Catalytic asymmetric synthesis of esters from ketenes. J Am Chem Soc 127 6176-6177... 

Ojima, 1., Habus, 1., Zhao, M. (1991) Efficient and Practical Asymmetric Synthesis ofthe Taxol C-13 Side Chain, N-Benzoyl-(2R,3S)-3-phenylisoserine, and its Analogues via Chiral 3-Hydroxy-4-aryl-b-lactams Through Chiral Ester Enolate-Imine Cyclocondensation. Journal of Organic Chemistry, 56, 1681-1683. 

Active methylene compounds may be sulfinylated by reaction of their enolate anions with sulfinate ester . This reaction has been investigated much in recent years and the compounds resulting from it have been of considerable use in asymmetric synthesis (see the chapter by Posner). Examples of the sulfinylation are given in the following paragraphs. 

Much attention has recently been focused on organoboronic acids and their esters because of their practical usefulness for synthetic organic reactions including asymmetric synthesis, combinatorial synthesis, and polymer synthesis [1, 3, 7-9], molecular recognition such as host-guest compounds [10], and neutron capture therapy in treatment of malignant melanoma and brain tumor ]11]. New synthetic procedures reviewed in this article wiU serve to find further appHcations of organoboron compounds. 

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... 

During the asymmetric synthesis of erythro and threo a-substituted 3-amino esters, the dimethylbinaphthyl moiety (28 in Fig. 4.5) was removed using transfer hydrogenolysis. 

The method has been used for a short asymmetric synthesis of (-)-prostaglandin Ej methyl ester (PGEj) (2-58) starting from 2-47, 2-55 and 2-56 (Scheme 2.12) [17]. The domino reaction provided 2-57 in 60 % yield as mixture of two diastereomers in reasonable stereoselectivity (trans-threo trans-erythro ratio 83 17). Further transformations led to 2-58 in an overall yield of 7% and 94% ee in seven steps. 

They have developed direct asymmetric synthesis of quaternary carbon centers via addition-elimination process. The reactions of chiral nitroenamines with zinc enolates of a-substituted-8-lactones afford a,a-disubstituted-6-lactones with a high ee through addition-elimination process, in which (5)-(+)-2-(methoxy methy l)pyrrolidine (SMP) is used as a chiral leaving group (Eq. 4.96).119 Application of this method to other substrates such as a-substituted ketones, esters, and amides has failed to yield high ee. 

Rodriguez, S., Schroeder, K.T., Kayser, M.M. and Stewart, J.D. (2000) Asymmetric synthesis of /3-hydroxy esters and alpha-alkyl-beta-hydroxy esters by recombinant Escherichia coli expressing enzymes from baker s yeast. The Journal of Organic Chemistry, 65 (8), 2586-2587. 

The first report on the reaction of D-pseudoephedrine 66 with phosphoryl chloride appeared as early as 1962 [49], More recently it was found that this condensation gave 2-chloro-l,3,2-oxazaphospholidine 2-oxides 67 as a single diastereomer which was subsequently esterified with racemic aldehyde cyanohydrins 68 without racemization at the phosphorus atom. The prepared diastereomeric esters 69 were used as substrates for the asymmetric synthesis of optically active cyanohydrins 72, which involves the intermediate formation of the tertiary esters 70, as shown in Scheme 22 [50],... 

A route for the asymmetric synthesis of benzo[3]quinolizidine derivative 273 was planned, having as the key step a Dieckman cyclization of a tetrahydroisoquinoline bis-methyl ester derivative 272, prepared from (.S )-phcnylalaninc in a multistep sequence. This cyclization was achieved by treatment of 272 with lithium diisopropylamide (LDA) as a base, and was followed by hydrolysis and decarboxylation to 273 (Scheme 58). Racemization could not be completely suppressed, even though many different reaction conditions were explored <1999JPI3623>. 

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