Enantioselective synthesis halogenation

Procedures for enantioselective synthesis of derivatives of a-bromoacids based on reaction of compounds A and B with W-bromosuccinimide have been developed. Predict the absolute configuration at the halogenated carbon in each product. Explain the basis of your prediction. 

Catalyst 36 was also used for the enantioselective synthesis of functionalized tetrahydropyrans, important building blocks in several biologically active molecules (Scheme 29) [78]. The enantioselectivity of such a reaction was significantly improved by using a ruthenium iodide complex 37. This halogen effect has been previously observed in the ring-closing metathesis (vide supra) [52]. 

In this chapter, the applications of stereoselective halogenations (C—Cl, C—Br, and C—I) in the total synthesis of natural or bioactive organohalogens will be shown. The main focus of this chapter will be on the enantioselective synthesis of natural products and bioactive molecules... 

Peroxidases have been used very frequently during the last ten years as biocatalysts in asymmetric synthesis. The transformation of a broad spectrum of substrates by these enzymes leads to valuable compounds for the asymmetric synthesis of natural products and biologically active molecules. Peroxidases catalyze regioselective hydroxylation of phenols and halogenation of olefins. Furthermore, they catalyze the epoxidation of olefins and the sulfoxidation of alkyl aryl sulfides in high enantioselectivities, as well as the asymmetric reduction of racemic hydroperoxides. The less selective oxidative coupHng of various phenols and aromatic amines by peroxidases provides a convenient access to dimeric, oligomeric and polymeric products for industrial applications. 

Enantioselective -Functionalization of Aldehydes and Ketones The direct and enantiosective functionalization of enolates or enolate equivalents with carbon-, nitrogen-, oxygen-, sulfur- or halogen-centered electrophiles represents a powerful transformation of chemical synthesis and of fundamental importance to modem practitioners of asymmetric molecule constmction. Independent studies from List, J0rgensen, Cordova, Hayashi, and MacMiUan have demonstrated the power of enamine catalysis, developing catalytic enantioselective reactions such as... 

With benzaldehyde 144 or halogenated derivatives (Cl, F) as acceptors the yeast-PDC-catalyzed addition proceeds with almost complete stereoselectivity to furnish the corresponding (R)-configurated 1-hydroxy-1-phenylpropanones 145 [447]. For practical reasons, whole yeast cells are most often used as the catalyst, with only small loss of enantioselectivity [423,424]. The conversion of benzaldehyde in particular has gained industrial importance because the acyloin is an important precursor for the synthesis of L-(-)-ephedrine [448]. Otherwise, the substrate tolerance is remarkably broad for aromatic aldehydes on the laboratory scale, however, yields of acyloins are usually low because of the prior or consequent reductive metabolism of aldehyde substrate and product, giving rise to considerable quantities of alcohol 146 and vicinol diols 147, respectively [423,424,449], The range of structural variability covers both higher a-oxo-acids (e.g. -butyrate, -valerate) as the donor component, as well as a,/J-un-saturated aldehydes (e.g. cinnamaldehyde 148) as the acceptor [450]. 

Novel approach for optically pure alcohol from racemic compounds is the use of dehalogenases.24 For example, L-2-halo acid dehalogenase Pseudomonas putida was used for the synthesis of D-3-chlorolactic acid from racemic 2,3-dichloropropionic acid (Figure 23(a)).24ad The enzyme catalyzed hydrolytic release of halogen from 2-halocarboxylic acids and produces 2-hydroxy acids with inversion of the configuration. L-2-Halo acid dehalogenase acted on the L-isomer of 2-halo acids and produces D-2-hydroxy acid with an excellent enantioselectivity. 

The DE ring of camptothecin has been prepared enantioselectively in six steps from 2-fluoropyridine using a halogen dance reaction <95TL(36)7995>. The first total synthesis of dimethyl sulfomycinamate (47) was reported starting from 3-hydroxy-6-methylpyridine (48) <95TL(36)5319>. 

Batch reactors based on peroxidases are mainly applied for degradation purposes (see Chap. 8). LiP, manganese peroxidase (MnP), HRP, SBP, and CPO were used for the oxidation of phenolic compounds [3, 6, 7, 9, 20, 38, 74, 75, 95], decoloriza-tion of dye-containing effluents [5, 22], and pulp biobleaching [59]. In the field of synthesis, CPO is the most versatile and promising of the peroxidases (see Chap. 6). It was applied in discontinuous operation for epoxidations [78,79], enantioselective oxidations of alcohols to aldehydes [14,48], halogenations [77,80], hydroxylations, and oxidation of indole to oxindole, which is an important drug precursor [96]. 

In this work, the synthesis of high surface densities of chlororopropyl groups covalently grafted on mesoporous micelle templated aluminosilicates (Al-MTS) of various initial pore diameters is presented. The hybrid chiral materials resulting from halogen substitution are applied in the enantioselective addition of diethylzinc to benzaldehyde. 

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