Antipode resolution

The biologically important anti-/8-phenylalanine, /8-2-thienylalanine (39), has been resolved into antipodes through enzymatic resolution with carboxypeptidase/ The pharmacologically important 3-piperidino-l,i-bis-2-thienyl-l-butene (40), which crystallizes as. a conglomerate, has been resolved by hand picking. ... 

Enantiomeric separations have become increasingly important, especially in the pharmaceutical and agricultural industries as optical isomers often possess different biological properties. The analysis and preparation of a pure enantiomer usually involves its resolution from the antipode. Among all the chiral separation techniques, HPLC has proven to be the most convenient, reproducible and widely applicable method. Most of the HPLC methods employ a chiral selector as the chiral stationary phase (CSP). 

The synthesis of key intermediate 12, in optically active form, commences with the resolution of racemic trans-2,3-epoxybutyric acid (27), a substance readily obtained by epoxidation of crotonic acid (26) (see Scheme 5). Treatment of racemic 27 with enantio-merically pure (S)-(-)-1 -a-napthylethylamine affords a 1 1 mixture of diastereomeric ammonium salts which can be resolved by recrystallization from absolute ethanol. Acidification of the resolved diastereomeric ammonium salts with methanesulfonic acid and extraction furnishes both epoxy acid enantiomers in eantiomerically pure form. Because the optical rotation and absolute configuration of one of the antipodes was known, the identity of enantiomerically pure epoxy acid, (+)-27, with the absolute configuration required for a synthesis of erythronolide B, could be confirmed. Sequential treatment of (+)-27 with ethyl chloroformate, excess sodium boro-hydride, and 2-methoxypropene with a trace of phosphorous oxychloride affords protected intermediate 28 in an overall yield of 76%. The action of ethyl chloroformate on carboxylic acid (+)-27 affords a mixed carbonic anhydride which is subsequently reduced by sodium borohydride to a primary alcohol. Protection of the primary hydroxyl group in the form of a mixed ketal is achieved easily with 2-methoxypropene and a catalytic amount of phosphorous oxychloride. 

The classical kinetic resolution of racemic substrate precursors allows only access to a theoretical 50% yield of the chiral ladone product, while the antipodal starting material remains unchanged in enantiomerically pure form. The regioseledivity for the enzymatic oxidation correlates to the chemical readion with preferred and exclusive migration of the more nucleophilic center (usually the higher substituted a-carbon). The majority of cydoketone converting BVMOs (in particular CHMOAdneto)... 

The identification of a novel BVMO from Mycobacterium tuberculosis (BVMOMtbs) complements this toolbox, as this particular biocatalyst performs a classical kinetic resolution instead of a regiodivergent oxidation vith complete consumption of substrate [140]. Notably, this enzyme accepts only one ketone enantiomer and converts it selectively to the abnormal lactone while the antipodal substrate remains unchanged (Scheme 9.24) [141]. 

Most of the phosphorus compounds described in the previous sections are chiral and racemic. Attempting their resolution - that is a physical separation of the enantiomers - was obviously attractive and this was realized as early as 1965 by Hellwinkel, who obtained both optical antipodes of 2 [18]. A patent on the synthesis and possible applications of enantiopure phosphate 2 was even filed at the time [103]. 

A facile synthesis of carba- -D-glucopyranose (99) and its l antipode (104) was accomplished by means of resolution of the starting compound DL-( 1,3,5/2,4)-2,3-diacetoxy-4,5-dibromocyclohexane-1 -carboxylic... 

All sixteen of the racemic carba-sugars predicted are known, as well as fifteen of the enantiomers. The most accessible starting-material for the synthesis of racemic carba-sugars is the Diels-Alder adduct of furan and acrylic acid, namely, e i o7-oxabicyclo[2.2.1]hept-5-ene-2-carboxylicacid (29). Furthermore, adduct 29 is readily resolved into the antipodes, (—)-29 and (+)-29, by use of optically active a-methylbenzylamine as the resolution agent. The antipodes were used for the synthesis of enantiomeric carba-sugars by reactions analogous to those adopted in the preparation of the racemates. 

At the antipodes of the latter description, there is a continuous need for better low-resolution models that involve, for instance, coarse graining of molecules, or implicit solvation. This need is motivated by the expectation that the free energy of a large system can be calculated with sufficient accuracy without requiring that all its components be described at the atomic level. In many cases, this is equivalent to the assumption that a mean-field approximation works, or that many fast degrees of freedom can be removed from the system, yet without any appreciable loss of... 

D,L-10-Camphorsulfonic acid is used for the preparation of the corresponding chloride (p. 14). The optically active acid has been used widely for the resolution of basic compounds into optical antipodes. 

Like other methods of asymmetric synthesis, the solid-state ionic chiral auxiliary procedure has an advantage over Pasteur resolution in terms of chemical yield. The maximum amount of either enantiomer that can be obtained by resolution of a racemic mixture is 50%, and in practice the yield is often considerably less [47]. In contrast, the ionic chiral auxiliary approach affords a single enantiomer of the product, often in chemical and optical yields of well over 90%. Furthermore, either enantiomer can be obtained as desired by simply using one optical antipode or the other of the ionic chiral auxiliary. 

Since the early times of stereochemistry, the phenomena related to chirality ( dis-symetrie moleculaire, as originally stated by Pasteur) have been treated or referred to as enantiomericaUy pure compounds. For a long time the measurement of specific rotations has been the only tool to evaluate the enantiomer distribution of an enantioimpure sample hence the expressions optical purity and optical antipodes. The usefulness of chiral assistance (natural products, circularly polarized light, etc.) for the preparation of optically active compounds, by either resolution or asymmetric synthesis, has been recognized by Pasteur, Le Bel, and van t Hoff. The first chiral auxiliaries selected for asymmetric synthesis were alkaloids such as quinine or some terpenes. Natural products with several asymmetric centers are usually enantiopure or close to 100% ee. With the necessity to devise new routes to enantiopure compounds, many simple or complex auxiliaries have been prepared from natural products or from resolved materials. Often the authors tried to get the highest enantiomeric excess values possible for the chiral auxiliaries before using them for asymmetric reactions. When a chiral reagent or catalyst could not be prepared enantiomericaUy pure, the enantiomeric excess (ee) of the product was assumed to be a minimum value or was corrected by the ee of the chiral auxiliary. The experimental data measured by polarimetry or spectroscopic methods are conveniently expressed by enantiomeric excess and enantiomeric... 

The synthesis of optically active polymers was tackled with the purpose not only of clarifying the mechanism of polymerization and the conformational state of polymers in solution, but also to explore the potential of these products in many fields as chiral catalysts, as stationary phases for chromatographic resolution of optical antipodes, for the preparation of liquid crystals, and so on. 

This preparation was previously described by Brandsma. Substrate 1 can be prepared In enantiomericeilly pure form beginning with chiral, non-racemic styrene oxide, available as either antipode from Aldrich Chemical Company, Inc., or by kinetic resolution of racemic styrene oxide. ... 

Chen, S.-T., Huang, W.-H. and Wang, K.-T. (1994) Resolution of amino acids in a mixture of 2-Methyl-2-propanol/water (19 1) catalysed by alcalase via in situ racemisation of one antipode mediated by pyridoxal 5-phosphate. J. Org. Chem., 59, 7580-7581. 

The rabbit FruA discriminates the enantiomers of its natural substrate with a 20 1 preference for D-GA3P (12) over its L-antipode [202], Assistance from anionic binding was revealed by a study on a homologous series of carboxylated 2-hydroxyaldehydes which showed optimum enantioselectivity when the distance of the charged group equaled that of 12 (Scheme 15, Fig. 11) [299], The resolution of racemic substrates is not, however, generally useful since the kinetic enantioselectivity for nonionic aldehydes is rather low [202], 3-Azido substituents (69) can lead to an up to 9-fold preference of enantiomers in kinetically controlled experiments [300] while hydroxyl (70 preference for the... 

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