Epoxide hydrolysis, asymmetric

In conclusion, the chiral salen Co(III) complexes immobilized on Si-MCM-41 colud be synthesized by multi-grafting method. The asymmetric synthesis of diols from terminal olefins was applied with success using a hybrid catalyst of Ti-MCM-41/chiral Co(III) salen complexes. The olefins are readily oxidized to racemic epoxides over Ti-MCM-41 in the presence of oxidants such as TBHP, and then these synthesized diols are generated sequentially by epoxide hydrolysis on the salen Co(lll) complexes. This catalytic system may provide a direct approach to the synthesis of enantioselective diols from olefins. 

The /M ) )-nitrite (or formate) esters of v/c-diols obtained via enzymatic ring-opening of epoxides in presence of nitrite (or formate) are unstable and undergo spontaneous (nonenzymatic) hydrolysis to furnish the corresponding diols. This protocol offers a useful complement to the asymmetric hydrolysis of epoxides. Depending on the type of substrate and the enzymes used, enantio-complementary epoxide hydrolysis can be achieved [1851]. 

Very recently, the kinetic resolution of terminal epoxides by asymmetrical hydrolysis employing a chiral cobalt-based salen complex as catalyst in water led to the formation of 1,2-diols in high yield and with high enantiomeric enrichment [13]. 

Enzymatic hydrolysis of A/-acylamino acids by amino acylase and amino acid esters by Hpase or carboxy esterase (70) is one kind of kinetic resolution. Kinetic resolution is found in chemical synthesis such as by epoxidation of racemic allyl alcohol and asymmetric hydrogenation (71). New routes for amino acid manufacturing are anticipated. 

An alternative method for generating enriched 1,2-diols from meso-epoxides consists of asymmetric copolymerization with carbon dioxide. Nozaki demonstrated that a zinc complex formed in situ from diethylzinc and diphenylprolinol catalyzed the copolymerization with cyclohexene oxide in high yield. Alkaline hydrolysis of the isotactic polymer then liberated the trans diol in 94% yield and 70% ee (Scheme 7.20) [40]. Coates later found that other zinc complexes such as 12 are also effective in forming isotactic polymers [41-42]. 

Chiral epoxides and their corresponding vicinal diols are very important intermediates in asymmetric synthesis [163]. Chiral nonracemic epoxides can be obtained through asymmetric epoxidation using either chemical catalysts [164] or enzymes [165-167]. Biocatalytic epoxidations require sophisticated techniques and have thus far found limited application. An alternative approach is the asymmetric hydrolysis of racemic or meso-epoxides using transition-metal catalysts [168] or biocatalysts [169-174]. Epoxide hydrolases (EHs) (EC 3.3.2.3) catalyze the conversion of epoxides to their corresponding vicinal diols. EHs are cofactor-independent enzymes that are almost ubiquitous in nature. They are usually employed as whole cells or crude... 

Lee, E.Y. and Shuler, M.L. (2007) Molecular engineering of epoxide hydrolase and its application to asymmetric and enantioconvergent hydrolysis. Biotechnology and Bioengineering, 98, 318-327. 

In 1959, Kharasch et al.43 reported an allylic oxyacylation of olefins. In the presence of f-butyl perbenzoate and a catalytic amount of copper salt in refluxing benzene, olefin was oxidized to allyl benzoate, which could then be converted to an allyl alcohol upon hydrolysis. It is desirable to introduce asymmetric induction into this allylic oxyacylation because allylic oxyacylation holds great potential for nonracemic allyl alcohol synthesis. Furthermore, this reaction can be regarded as a good supplement to other asymmetric olefinic reactions such as epoxidation and dihydroxylation. 

M. Tokunaga, J. F. Larrow, F. Kakiuchi, E. N. Jacobsen, Asymmetric Catalysis with Water Efficient Kinetic Resolution of Terminal Epoxides by Means of Catalytic Hydrolysis, Science 1997, 2T7, 936-938, and references cited therein. 

The above-mentioned facts have important consequences on the stereochemical outcome of the kinetic resolution of asymmetrically substituted epoxides. In the majority of kinetic resolutions of esters (e.g. by ester hydrolysis and synthesis using lipases, esterases and proteases) the absolute configuration at the stereogenic centre(s) always remains the same throughout the reaction. In contrast, the enzymatic hydrolysis of epoxides may take place via attack on either carbon of the oxirane ring (Scheme 7) and it is the structure of the substrate and of the enzyme involved which determine the regioselec-tivity of the attack [53, 58-611. As a consequence, the absolute configuration of both the product and substrate from a kinetic resolution of a racemic... 

Tokimaga, M. Larrow, J. F. Kakiuchi, F. Jacobsen E. N. (1997) Asymmetric catalysis with water Efficient kinetic resolution of terminal epoxides by means of catalytic hydrolysis., Science, 111 936-938. 

Asymmetric synthesis of stavudine and cordycepin, anti-HIV agents, and several 3 -amino-3 -deoxy-P-nudeosides was achieved utilizing this cycloisomerization of 3-butynols to dihydrofuran derivatives [16]. For example, Mo(CO)6-TMNO-promoted cyclization of the optically active alkynyl alcohol 42, prepared utilizing Sharpless asymmetric epoxidation, afforded dihydrofuran 43 in good yield. Iodine-mediated introduction of a thymine moiety followed by dehydroiodination and hydrolysis of the pivaloate gave stavudine in only six steps starting from allyl alcohol (Scheme 5.13). 

Asymmetric microbial oxidation afforded the (-)-epoxide which has been explored as a building block ring opening reactions with organometallic nucleophiles, and via Friedel-Crafts reactions have been reported. [226,227]. A non-biotransformative approach to this epoxide has also been described [228]. Copper(II)-catalysed oxidative hydrolysis (Eq. 72) affords a lactic acid analogue in high enantiomeric purity [229]. 

The optically active N-aminoindoline (265) has been applied to the asymmetric synthesis of a variety of a-amino acids (70JA2476, 2488). Starting from TV-benzoyl-1,2,3,4-tetrahy-droquinaldine (257), the chloro amide (258) was prepared by von Braun cleavage. Thermolysis converted (258) to the rrans-unsaturated amide (259) which was epoxidized. On base treatment the epoxide (260) underwent intramolecular nucleophilic displacement and amide hydrolysis to afford indoline (261) stereospecifically. Resolution of (261) was accomplished via the brucine salt of the N-o-carboxybenzoyl derivative (262). Alkaline hydrolysis, N-nitrosation and reduction yielded the levorotatory 1-aminoindoline (265). Reaction of... 

Sharpless epoxidation of (E)-(l,2-dialkyl)vinylsilanols 13, prepared from hydrolysis of ( )-( 1,2-dialkyl )vinyldimethylbutoxysilanes 12, gave silylepoxides 14, which were treated with Et4NF in MeCN to afford epoxides 15 in 62-70% overall yield and 44-70% ee (Scheme 6AA.6).7 The overall transformation can be considered as asymmetric epoxidation of simple internal alkenes. This approach was applied to the synthesis of a naturally occurring insect sex pheromone (+)-disparlure.7... 

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