Esters, resolution

Ester Resolution for the Synthesis of Emtricitabine (Antiviral Drug)... 

The effect of pH on the reaction rate and enantioselectivity using Bacillus lentus protease-III was studied and the results are summarized in Tab. 3. As with most ester resolutions using alkaline proteases, at high pH the hydrolysis is more rapid, however the selectivity is somewhat lower. We also observed that base-catalyzed hydrolysis is significant when the pH is over 9.0 (<1%), which has a negative effect on selectivity. Based on initial rate measurements, the rate of hydrolysis at pH 8 was four-fold higher than that at pH 7. Thus there is a substantial decrease in rate of hydrolysis with decreasing pH. 

Papain 3 ester Resolution of racemic amino acid derivatives 42... 

Esterification Carboxyiic acid and aicohoi Ester Synthesis of esters resolutions of carboxylic acids and alcohols Lipase, esterase, protease... 

Sorbitan Ci2-Cig alkyl esters, resolution by number of alkyl groups partial resolution by alkyl chain length Dionex SB-Biphenyl-30 (30% biphenyl 70% methylpolysiloxane), 0.25 pm, 50 pm X 5 m CO2, pressure programmed, 16(PC FID 15... 

One approach called enzymatic resolution, involves treating a racemic mixture with an enzyme that catalyzes the reaction of only one of the enantiomers Some of the most commonly used ones are lipases and esterases enzymes that catalyze the hydrol ysis of esters In a typical procedure one enantiomer of the acetate ester of a racemic alcohol undergoes hydrolysis and the other is left unchanged when hydrolyzed m the presence of an esterase from hog liver... 

High yields of the enantiomerically pure alcohol and enantiomerically pure ester are reg ularly achieved The growing interest m chiral drugs (see the boxed essay on this topic p 296) has stimulated the development of large scale enzymatic resolution as a com mercial process... 

Three general methods exist for the resolution of enantiomers by Hquid chromatography (qv) (47,48). Conversion of the enantiomers to diastereomers and subsequent column chromatography on an achiral stationary phase with an achiral eluant represents a classical method of resolution (49). Diastereomeric derivatization is problematic in that conversion back to the desired enantiomers can result in partial racemization. For example, (lR,23, 5R)-menthol (R)-mandelate (31) is readily separated from its diastereomer but ester hydrolysis under numerous reaction conditions produces (R)-(-)-mandehc acid (32) which is contaminated with (3)-(+)-mandehc acid (33). 

Enzymatic hydrolysis of A/-acylamino acids by amino acylase and amino acid esters by Hpase or carboxy esterase (70) is one kind of kinetic resolution. Kinetic resolution is found in chemical synthesis such as by epoxidation of racemic allyl alcohol and asymmetric hydrogenation (71). New routes for amino acid manufacturing are anticipated. 

Industrial Synthetic Improvements. One significant modification of the Stembach process is the result of work by Sumitomo chemists in 1975, in which the optical resolution—reduction sequence is replaced with a more efficient asymmetric conversion of the meso-cyc. 02Lcid (13) to the optically pure i7-lactone (17) (Fig. 3) (25). The cycloacid is reacted with the optically active dihydroxyamine [2964-48-9] (23) to quantitatively yield the chiral imide [85317-83-5] (24). Diastereoselective reduction of the pro-R-carbonyl using sodium borohydride affords the optically pure hydroxyamide [85317-84-6] (25) after recrystaUization. Acid hydrolysis of the amide then yields the desired i7-lactone (17). A similar approach uses chiral alcohols to form diastereomic half-esters stereoselectivity. These are reduced and direedy converted to i7-lactone (26). In both approaches, the desired diastereomeric half-amide or half-ester is formed in excess, thus avoiding the cosdy resolution step required in the Stembach synthesis. 

Appllca.tlons. MCA is used for the resolution of many classes of chiral dmgs. Polar compounds such as amines, amides, imides, esters, and ketones can be resolved (34). A phenyl or a cycloalkyl group near the chiral center seems to improve chiral selectivity. Nonpolar racemates have also been resolved, but charged or dissociating compounds are not retained on MCA. Mobile phases used with MCA columns include ethanol and methanol. 

Optically Active Alcohols and Esters. In addition to the hydrolysis of esters formed by simple alcohols described above, Hpases and esterases also catalyze the hydrolysis of a wide range of esters based on more complex and synthetically useful cycHc and acycHc alcohols (Table 5). Although the hydrolysis of acetates often gives the desirable resolution, to achieve maximum selectivity and reaction efficiency, comparison of various esters is recommended. 

Both saturated (50) and unsaturated derivatives (51) are easily accepted by lipases and esterases. Lipase P from Amano resolves azide (52) or naphthyl (53) derivatives with good yields and excellent selectivity. PPL-catalyzed resolution of glycidyl esters (54) is of great synthetic utiUty because it provides an alternative to the Sharpless epoxidation route for the synthesis of P-blockers. The optical purity of glycidyl esters strongly depends on the stmcture of the acyl moiety the hydrolysis of propyl and butyl derivatives of epoxy alcohols results ia esters with ee > 95% (30). 

Two more examples ia Table 5 iaclude the hydrolysis of esters of trans-alcohols that proceed with high efficiency practically regardless of the nature of the substituents (72) and resolution of P-hydroxynitriles with Upase from Pseudomonas sp. In the latter case the enantioselectivity of the hydrolysis was improved by iatroduciag sulfur iato the acyl moiety (73). 

Unprotected racemic amines can be resolved by enantioselective acylations with activated esters (110,111). This approach is based on the discovery that enantioselectivity of some enzymes strongly depends on the nature of the reaction medium. For example, the enantioselectivity factor (defined as the ratio of the initial rates for (3)- and (R)-isomers) of subtiHsin in the acylation of CX-methyl-ben zyl amine with tritiuoroethyl butyrate varies from 0.95 in toluene to 7.7 in 3-methyl-3-pentanol (110). The latter solvent has been used for enantioselective resolutions of a number of racemic amines (110). 

Naphthyl)ethyl isocyanate 2 for chromatographic resolution of alcohols, hydroxy esters thiols via diastereomenc derivatives. 

The potential for use of chiral natural materials such as cellulose for separation of enantiomers has long been recognized, but development of efficient materials occurred relatively recently. Several acylated derivatives of cellulose are effective chiral stationary phases. Benzoate esters and aryl carbamates are particularly useful. These materials are commercially available on a silica support and imder the trademark Chiralcel. Figure 2.4 shows the resolution of y-phenyl-y-butyrolactone with the use of acetylated cellulose as the adsorbent material. 

The resolution of optically active compounds by gas chromatography with chiral phases is a well-established procedure, and the separation of Al-perfluoto-acetylated ammo acid ester enantiomers m 1967 was the first successful application of enantioselective gas-liquid chromatography [39] Ammo acids have been resolved as their A -trifluoroacetyl esters on chiral diamide phases such as N-lauroyl-L-valineferf-butylamideorAl-docosanoyl-L-valme /ez-r-butylamide [40,41,... 

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