Resolution reagent

As the Diels-Alder cyclic adduct 33 has been recognized as the most accessible starting compound for the synthesis of racemic pseudo-sugars, a resolution of 33 has been attempted to prepare enantiomeric pseudo-sugars, starting from an optically active antipode of 33. It has been revealed that 33 was readily separated into the enantiomers by using optically active a-methylbenzylamines as resolution reagents. 

Peric s and coworkers have elucidated a facile and inexpensive route to determining the enantiomeric excess of primary amines. A regioselective and enantioselective epoxide ring opening of 108 with BF, followed by lithium ferf-butoxide catalyzed epoxide closure yielded 109, which was utilized as a resolution reagent. Through the use of 20 mol% of 109 relative to an amine, an ee determination could be performed on 110 via NMR without further purification <05OL3829>. 

Foo L Y, Porter L J 1983 Enantiomerism in natural procyanidins polymers Use of epicatechin as a chiral resolution reagent. J Chem Soc Chem Commun 242-243... 

In the Sharpless epoxidation of divinylmethanols only one of four possible stereoisomers is selectively formed. In this special case the diastereotopic face selectivity of the Shaipless reagent may result in diastereomeric by-products rather than the enantiomeric one, e.g., for the L -(-(-)-DIPT-catalyzed epoxidation of (E)-a-(l-propenyl)cyclohexaneraethanol to [S(S)-, [R(S)-, [S(R)- and [R(R)-trans]-arate constants is 971 19 6 4 (see above S.L. Schreiber, 1987). This effect may strongly enhance the e.e. in addition to the kinetic resolution effect mentioned above, which finally reduces further the amount of the enantiomer formed. 

Because they are similar, the aLkanolamines often can be used interchangeably. However, cost/perfomiance considerations generally dictate a best choice for specific appHcations. AMPD is manufactured in very low volumes for use as a reagent in certain medical diagnostic tests, although some is used in certain cosmetic products. 2-Ainino-1-butanol is used primarily as a taw material for the synthesis of ethambutol [74-55-5] an antituberculosis dmg. The first step in the synthesis of this dmg is the resolution of AB into its optical isomers because only (i)-2-amino-l-butanol, [5856-62-2] is utilized in this synthesis. 

Since this original synthesis, a great number of improvements (191—201) have been made in the stereoselective preparation and derivatization of the CO-chain precursor, in cuprate reagent composition and preparation, in protecting group utilization, and in the preparation and resolution of hydroxycyclopentenones. Illustration of some of the many improvements are seen in a synthesis (202) of enisoprost, a PGE analogue. The improvements consist of a much more efficient route to the enone as well as modifications in the cuprate reactions. Preparation of the racemic enone is as follows ... 

Synthetic chiral adsorbents are usually prepared by tethering a chiral molecule to a silica surface. The attachment to the silica is through alkylsiloxy bonds. A study which demonstrates the technique reports the resolution of a number of aromatic compoimds on a 1- to 8-g scale. The adsorbent is a silica that has been derivatized with a chiral reagent. Specifically, hydroxyl groups on the silica surface are covalently boimd to a derivative of f -phenylglycine. A medium-pressure chromatography apparatus is used. The racemic mixture is passed through the column, and, when resolution is successful, the separated enantiomers are isolated as completely resolved fiactions. Scheme 2.5 shows some other examples of chiral stationary phases. 

Another means of resolution depends on the difference in rates of reaction of two enantiomers with a chiral reagent. The transition-state energies for reaction of each enantiomer with one enantiomer of a chiral reagent will be different. This is because the transition states and intermediates (f -substrate... f -reactant) and (5-substrate... R-reactant) are diastereomeric. Kinetic resolution is the term used to describe the separation of enantiomers based on different reaction rates with an enantiomerically pure reagent. 

Fig. 2.6. Dependence of enanhomeric excess on relative rate of reaction and extent of conversion with a chiral reagent in kinetic resolution. [Reproduced from J. Am. Chem. Soc. 103 6237 (1981) by permission of the American Chemical Society.]...

Note For in situ quantitation the scanning should begin 20 min after applying the reagent [7]. Suitable stationary phases include siUca gel [2, 8] — also buffered with 0.02 M sodium acetate solution [9] — kieselguhr, Si 50000 [10] and, in particular, NHa layers [5]. An adequate resolution is often obtained on amino layers after a single development (cf. Procedure Tested). 

Asymmetric epoxidation of racemic unsaturated fluoro alcohols by the chiral Sharpless reagent can be exploited for kmetic resolution of enantiomers The recovered stereoisomer has 14-98% enantiomeric excess [55] (equation 50)... 

Catalytic kinetic resolution can be the method of choice for the preparation of enantioenriched materials, particularly when the racemate is inexpensive and readily available and direct asymmetric routes to the optically active compounds are lacking. However, several other criteria-induding catalyst selectivity, efficiency, and cost, stoichiometric reagent cost, waste generation, volumetric throughput, ease of product isolation, scalability, and the existence of viable alternatives from the chiral pool (or classical resolution)-must be taken into consideration as well... 

Although several interesting nitrogen-centered nucleophiles have been developed with ARO reactions of epoxides (vide supra), kinetic resolutions with such reagents are unlikely to be of practical value for the recovery of enantioenriched terminal epoxides. This is due to the fact that these nucleophiles are too valuable to be discarded in a by-product of the resolution, are generally not atom-economical, and, particularly in the case of azide, may represent safety hazards. 

Pineschi and Feringa reported that chiral copper phosphoramidite catalysts mediate a regiodivergent kinetic resolution (RKR) of cyclic unsaturated epoxides with dialkylzinc reagents, in which epoxide enantiomers are selectively transformed into different regioisomers (allylic and homoallylic alcohols) [90]. The method was also applied to both s-cis and s-trans cyclic allylic epoxides (Schemes 7.45 and 7.46,... 

Cu(i(-catalyzed kinetic resolutions of racemic, cyclic 1,3-diene monoepoxides through the use of dialkylzinc [123] or trialkylaluminium reagents [124] have re-... 

Since the addition of dialkylzinc reagents to aldehydes can be performed enantioselectively in the presence of a chiral amino alcohol catalyst, such as (-)-(1S,2/ )-Ar,A -dibutylnorephedrine (see Section 1.3.1.7.1.), this reaction is suitable for the kinetic resolution of racemic aldehydes127 and/or the enantioselective synthesis of optically active alcohols with two stereogenic centers starting from racemic aldehydes128 129. Thus, addition of diethylzinc to racemic 2-phenylpropanal in the presence of (-)-(lS,2/ )-Ar,W-dibutylnorephedrine gave a 75 25 mixture of the diastereomeric alcohols syn-4 and anti-4 with 65% ee and 93% ee, respectively, and 60% total yield. In the case of the syn-diastereomer, the (2.S, 3S)-enantiomer predominated, whereas with the twtf-diastereomer, the (2f ,3S)-enantiomer was formed preferentially. 

Numerous reactions of racemic sulfoxides with chiral reagents have been accomplished2,12. These examples of kinetic resolution usually lead to sulfoxides of low enantiomeric purity, but there are some exceptions. 

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