Ketones resolution

Ketene, 104, 232 Ketimines, 414 -Ketoacetals, 221 0-Keto allenes, 230, 231 a-Ketocarboxylic acids, 184 1 -Keto-7,7-dimethylnorcarane, 181 a-Keto esters, 237, 245 Ketones, 229, 274 Ketones, resolution, 58, 59... 

Amine oxidation Amine Aldehyde, ketone Synthesis of aldehydes and ketones resolutions of amines Amine oxidase... 

Acetophenone similarly gives an oxime, CHjCCgHjlCtNOH, of m.p. 59° owing to its lower m.p. and its greater solubility in most liquids, it is not as suitable as the phenylhydrazone for characterising the ketone. Its chief use is for the preparation of 1-phenyl-ethylamine, CHjCCgHslCHNHj, which can be readily obtained by the reduction of the oxime or by the Leuckart reaction (p. 223), and which can then be resolved by d-tartaric acid and /-malic acid into optically active forms. The optically active amine is frequently used in turn for the resolution of racemic acids. 

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. 

The C NMR spectrum of the metabolite shows 16 signals instead of 8 as expected from the elemental composition determined by high-resolution mass spectrometry. Moreover, aromaticity of the 2,6-xylenol is obviously lost after metabolism because two ketonic carbonyl carbon atoms (5c = 203.1 and 214.4) and four instead of twelve carbon signals are observed in the shift range of trigonal carbon nuclei (5c = 133.1, 135.4, 135.6 and 139.4) in the C NMR spectra. To conclude, metabolism involves oxidation of the benzenoid ring. 

Oxathiane 101 is readily deprotonated using s-BuLi, and the resulting anion reacts with alkyl halides, ketones, and benzonitrile (85JOC657). The majority of work in this area, however, is due to Eliel and coworkers and has involved chiral 1,3-oxathianes as asymmetric acyl anion equivalents. In the earliest work it was demonstrated that the oxathianes 102 and 103, obtained in enantiomeri-cally pure form by a sequence involving resolution, could be deprotonated with butyllithium and added to benzaldehyde. The products were formed with poor selectivity at the new stereocenter, however, and oxidation followed by addition... 

Replacement of the ketone by an amide leads to Increased potency. Hydrolysis of nitrile, 133 (obtained by alkylation of diphenylacetonitrile with the morpholine analog of the chloro-amine used in the original preparation of methadone), affords acid, 134. Conversion to the acid chloride followed by reaction with pyrrolidine affords racemoramide (135) Separation of the (+) isomer by optical resolution gives dextromoramide, an analgesic an order of magnitude more potent than methadone. 

K. Grob and J. M. Stoll, Loop-type interface for concuirent solvent evapoi ation in coupled HPLC-GC. Analysis of raspbeiry ketone in a raspbeiry sauce as an example , 7. High Resolut. Chromatogr. Chromatogr. Commun. 9 518-523 (1986). 

Schemes 3-7 describe the synthesis of cyanobromide 6, the A-D sector of vitamin Bi2. The synthesis commences with an alkylation of the magnesium salt of methoxydimethylindole 28 to give intermediate 29 (see Scheme 3a). The stereocenter created in this step plays a central role in directing the stereochemical course of the next reaction. Thus, exposure of 29 to methanol in the presence of BF3 and HgO results in the formation of tricyclic ketone 22 presumably through the intermediacy of the derived methyl enol ether 30. It is instructive to point out that the five-membered nitrogen-containing ring in 22, with its two adjacent methyl-bearing stereocenters, is destined to become ring A of vitamin Bi2. A classical resolution of racemic 22 with a-phenylethylisocyanate (31) furnishes tricyclic ketone 22 in enantiomerically pure form via diaster-eomer 32.

With this single example we have in tact described two uses of enzymes in alicyclic chemistry, the reduction of ketone groups and the resolution of racemic mixtures. 

A kinetic resolution was also observed in the reduction of racemic a-ketosulphoxides 277 by fermenting yeast337 (equation 153). Both the starting ketones 277 and the corresponding /1-hydroxysulphoxides 278 formed have been recovered in almost enan-tiomerically pure form. 

CHMO is known to catalyze a number of enantioselective BV reactions, including the kinetic resolution of certain racemic ketones and desymmetrization of prochiral substrates [84—87]. An example is the desymmetrization of 4-methylcyclohexanone, which affords the (S)-configurated seven-membered lactone with 98% ee [84,87]. Of course, many ketones fail to react with acceptable levels of enantioselectivity, or are not even accepted by the enzyme. 

The synthesis of a-amino acids by reaction of aldehydes or ketones with ammonia and hydrogen cyanide followed by hydrolysis of the resulting a-aminonitrile is called the Strecker synthesis. Enzymatic hydrolysis has been applied to the kinetic resolution of intermediate a-aminonitriles [90,91]. The hydrolysis of (rac)-phenylglycine nitrile... 

Dynamic kinetic resolution of racemic ketones proceeds through asymmetric reduction when the substrate does racemize and the product does not under the applied experimental conditions. Dynamic kinetic resolution of a-alkyl P-keto ester has been performed through enzymatic reduction. One isomer, out of the four possible products for the unselective reduction (Figure 8.38), can be selectively synthesized using biocatalyst, and by changing the biocatalyst or conditions, all of the isomers can be selectively synthesized [29]. 

Another example of dynamic kinetic resolution is the reduction of a sulfur-substituted ketone. Thus, yeast reduction of (R/S)-2-(4-methoxyphenyl)-l, 5-benzothiazepin-3,4(2H, 5H)-dione gave only (2S, 3S)-alcohol as a product out of four possible isomers as shown in Figure 8.39c [29kj. Only (S)-ketone was recognized by the enzyme as a substrate and reduction of the ketone proceeded... 

Scheme 9.23 Kinetic resolution of noncyclic ketones to chiral esters.

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]. 

In the case of the ketone (12), a racemic mixture was converted to an optically active mixture (optical yield 46%) by treatment with the chiral base (13). This happened beeause 13 reacted with one enantiomer of 12 faster than with the other (an example of kinetic resolution). The enolate (14) must remain coordinated with the chiral amine, and it is the amine that reprotonates 14, not an added proton donor. 

The complex Pd-(-)-sparteine was also used as catalyst in an important reaction. Two groups have simultaneously and independently reported a closely related aerobic oxidative kinetic resolution of secondary alcohols. The oxidation of secondary alcohols is one of the most common and well-studied reactions in chemistry. Although excellent catalytic enantioselective methods exist for a variety of oxidation processes, such as epoxidation, dihydroxy-lation, and aziridination, there are relatively few catalytic enantioselective examples of alcohol oxidation. The two research teams were interested in the metal-catalyzed aerobic oxidation of alcohols to aldehydes and ketones and became involved in extending the scopes of these oxidations to asymmetric catalysis. 

Optically active 5-(hydroxymethyl)-3-phenyl-2-isoxazoline 13 is a versatile key intermediate for the syntheses of /3-hydroxy ketones, y-amino alcohols,and y-amino acids. However, the Upase-catalyzed kinetic resolution of isoxazoline ( )-13 has not been reported so far probably because of the low enantioselectivity expected for primary alcohols (Scheme 3). The enantioselectivity was found to be very low E value = 4-5 in /-Pr20) at room temperature however, it could be markedly improved up to an value of 249 at —60°C by using lipase PS-C 11 in acetone, which was the best solvent among those tested (THF, /-Pt20) 1 )-... 

Table 9 Result of one-pot preparation method of optically active sec-alcohols (65a,b, 65e-i) by a combination of reduction of ketone and enantiomeric resolution in a water susupension medium... 

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