Kinetic desymmetrization

In contrast, Cozzi and Umani-Ronchi found the (salen)Cr-Cl complex 2 to be very effective for the desymmetrization of meso-slilbene oxide with use of substituted indoles as nucleophiles (Scheme 7.25) [49]. The reaction is high-yielding, highly enantioselective, and takes place exclusively at sp2-hybridized C3, independently of the indole substitution pattern at positions 1 and 2. The successful use of N-alkyl substrates (Scheme 7.25, entries 2 and 4) suggests that nucleophile activation does not occur in this reaction, in stark contrast with the highly enantioselective cooperative bimetallic mechanism of the (salen)Cr-Cl-catalyzed asymmetric azidolysis reaction (Scheme 7.5). However, no kinetic studies on this reaction were reported. 

The principle cost determinant in typical hydrolytic or phenolic resolutions is the cobalt catalyst, despite the relatively low catalyst loadings used in most cases and the demonstrated recyclability with key substrates. From this standpoint, recently developed oligomeric (salen)Co complexes, discussed earlier in this chapter in the context of the hydrolytic desymmetrization of meso-epoxides (Scheme 7.16), offer significant advantages for kinetic resolutions of racemic terminal epoxides (Table 7.3) [29-31]. For the hydrolytic and phenolic kinetic resolutions, the oligo-... 

Andersson also showed that, in addition to meso-desymmetrization, kinetic resolution of some cyclic epoxides by use of the first-generation catalyst was also possible, giving both epoxides and allylic alcohols in good yields (Scheme 7.51) [108], Kozmin reported the effective use of the same catalyst in the desymmetrization of diphenylsilacyclopentene oxide. The resulting products could be used in the ster-eocontrolled syntheses of various acyclic polyols (Scheme 7.52) [109]. 

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. 

Kinetic Resolution, Dynamic Kinetic Resolution, and Desymmetrization... 

In an asymmetric synthesis, the enantiomeric composition of the product remains constant as the reaction proceeds. In practice, ho vever, many enzymatic desymmetrizations undergo a subsequent kinetic resolution as illustrated in Figure 6.5. For instance, hydrolysis of a prochiral diacetate first gives the chiral monoalcohol monoester, but this product is also a substrate for the hydrolase, resulting in the production of... 

Of the two former processes shown in Scheme 5.2, the kinetic resolution of race-mates has found a much greater number of applications than the desymmetrization of prochiral or meso compounds. This is due to the fact that racemic substrates are much more common than prochiral ones. However, kinetic resolution suffers from a number of drawbacks, the main being the following ... 

To outweigh disadvantages of the kinetic resolution presented above, an enzymatic desymmetrization of prochiral sulfinyldiacetates 19 was performed. The use of various enzymes, PLE, a-chymotrypsin (a-CT) ° and PPL," made it... 

Tryptophan (and also tryptophanol) undergoes a stereoselective cyclocondensation with racemic compound 249, in a very interesting process involving a kinetic resolution with epimerization of the tryptophan stereocenter and simultaneous desymmetrization of the two diastereotopic acetate chains <2005CC1327>, affording the enantiomeri-cally pure lactam 250. A subsequent treatment of the latter compound with trifluoroacetic acid led to the indolo[2,3- ]quinolizidine 251 through an intermediate acyliminium cation (Scheme 50) <20050L2817>. 

Recently, Krische and co-workers developed an effective protocol for the catalytic desymmetrization and parallel kinetic resolution of enone-diones via tandem conjugate addition-aldol cyclization (Scheme 66).150 This transformation, involving enantioselective rhodium-catalyzed conjugate addition methodology, enabled the formation of two C-G bonds and four contiguous stereogenic centers from simple precursors with high diastereo- and enantiocontrol. 

The kinetic resolution by etherification has also been conducted through the cyclization of epoxy aliphatic alcohols.274 In these reactions catalyzed by monomeric complex 51, the ring closure of acyclic substrates occurred with exclusive / -selectivity (Equation (74)), whereas m -openings were observed in the desymmetrization of... 

Kinetic resolution reactions on C2-symmetric substrates have important applications. Desymmetrization is just one example of such a kinetic resolution reaction. Enzymatic desymmetrization is outlined in Scheme 8-1.5,6... 

Unlike kinetic resolution, catalytic desymmetrization and asymmetrization can afford enantiopure products in theoretical yields of 100 % and are more generally applicable than DKR or deracemization techniques. 

This section will only discuss examples of catalytic kinetic resolution, DKR, desymmetrization and asymmetrization. Deracemization will not be considered because, although an important developing technology, examples of its application to the production of chiral late-stage intermediates in API production have yet to appear. 

CPDMO is a new bioreagent for the synthesis of optically pure lactones with excellent enantioselectivity. CPDMO is not only effective in desymmetrization of meso and prochiral compounds (Procedure 2, Section 11.8.2), but excellent in carrying out the kinetic resolution of racemates (Procedure 3, Section 11.8.3). Additional examples of optically pure lactones that can be obtained are summarized in Table 11.4. In the fermenter work (Procedure 4, Section 11.8.4), (R)-2-methyl cyclohexanone was not converted, but evaporated under aeration condition (1 wm). This led to the expected product (5)-7-methyl oxepanone at the end of the experiment. The optically pure lactone could be recovered without sdica-gel chromatography separation. However, the production yield may be improved by using a better condenser. 

To avoid the inherent limitations of a kinetic resolution process, the reaction was extended to desymmetrization of prochiral meso epoxides. A number of cyclic di-methylidene epoxides were synthesized and subjected to treatment with Et2Zn in the presence of Cu(OTf)2 and ligands 42 or 43. As in the case mentioned above, ligand 42 was superior in terms of selectivity. Cydohexane derivative 46 gave the ring-opened product with a 97% ee and in a 90% isolated yield, with a y/a ratio of 98 2 (Scheme 8.28). The other substrates investigated produced sigmficantly lower ees of between 66% and 85%. 

The groups of Sigman and Stoltz have concurrently published the palladium-catalyzed oxidative kinetic resolution of secondary alcohols using molecular oxygen as the stoichiometric oxidant. Both communications also described a single example of a diol desymmetrization using a palladium catalyst in the presence of (—(-sparteine [Eqs. (10.42) ° and (10.43) ] ... 

If the 3-position is a quaternary stereocenter, then Rh(I)/Tol-BINAP is the catalyst of choice for the hydroacylation process. With this catalyst, both kinetic resolutions (Eq. 20) and desymmetrization reactions (Eq. 21) may be accomplished. 

Oxidative kinetic resolution of secondary alcohols mediated with a catalytic amount of optically active binaphthyl-type iV-oxyl has been performed with high selectivity". Also, it has mediated oxidative asymmetric desymmetrization of primary alcohols with good selectivity (equation 25)". ... 

This screening system has also been applied successfully in the directed evolution of enantioselective EHs acting as catalysts in the kinetic resolution of chiral epoxides 95,96) (Section IV.A.4). Moreover, the firm Diversa has applied the MS-based method in the desymmetrization of a prochiral dinitrile (l,3-dicyano-2-hydroxypropane) catalyzed by mutant nitrilases 46). In this industrial application, one of the nitrile moieties was labeled selectively with as in N-17, which means that the two pseiido-eaaniiovaenc products (S)- N-18 and (J )-18 differ by one mass unit. This is sufficient for the MS system to distinguish between the two products quantitatively 46). 

---