Oxirane synthesis derivatives

Oxirane taxol derivatives have also been found to be convenient starting materials for the synthesis of taxols fused with a thietane ring. The oxirane-derived taxine B derivatives 118 and 119 have undergone reaction with potassium thioacetate in dimethylformamide (DMF) at 60°C <2000TL4891, 2001JOC5058>, leading to the formation of thietane-derived taxine B derivatives 57 and 121. In the case of the bromine derivative 118, the thietane-taxol 57 was not the exclusive product and the 1,2-dithiolane derivative 120 occurred as the major product (Equations 35 and 36). 

In an asymmetric version of the Corey oxirane synthesis, aryl aldehydes are reacted with benzyl bromide in the presence of the cyclic sulfide (cat ) derived from D-camphor as a chiral catalyst to give 1,2-diaryloxiranes with high stereoselectivities [15], for example ... 

The benzylidene derivative above is used, if both hydroxyl groups on C-2 and C-3 are needed in synthesis. This r/vzns-2,3-diol can be converted to the sterically more hindered a-cpoxide by tosylation of both hydroxy groups and subsequent treatment with base (N.R. Williams, 1970 J.G. Buchanan, 1976). An oxide anion is formed and displaces the sulfonyloxy group by a rearside attack. The oxirane may then be re-opened with nucleophiles, e.g. methyl lithium, and the less hindered carbon atom will react selectively. In the following sequence starting with an a-glucoside only the 2-methyl-2-deoxyaltrose is obtained (S. Hanessian, 1977). 

The derivatives are hydroxyethyl and hydroxypropyl cellulose. AH four derivatives find numerous appHcations and there are other reactants that can be added to ceUulose, including the mixed addition of reactants lea ding to adducts of commercial significance. In the commercial production of mixed ethers there are economic factors to consider that include the efficiency of adduct additions (ca 40%), waste product disposal, and the method of product recovery and drying on a commercial scale. The products produced by equation 2 require heat and produce NaCl, a corrosive by-product, with each mole of adduct added. These products are produced by a paste process and require corrosion-resistant production units. The oxirane additions (eq. 3) are exothermic, and with the explosive nature of the oxiranes, require a dispersion diluent in their synthesis (see Cellulose ethers). 

Enantioselective synthesis and transformations of oxirane and aziridine derivatives 99PAC423. 

One of the first applications of the microbial hydrolysis of epoxides for the synthesis of a bioactive compound is based on the resolution of a 2,3-disub-stituted oxirane having a cis-configuration (Scheme 14). Thus, by using an enzyme preparation derived from Pseudomonas sp., the (91 ,10S)-enantiomer was hydrolyzed in a frans-specific fashion (i.e. via inversion of configuration at C-10) yielding the 9R,10R)-threo-diol. The remaining (9S,101 )-epoxide was converted into (-1-)-dispar lure, the sex pheromone of the gypsy moth in >95% ee [101]. 

The stoichiometric approach has been successfully used as the key step for the synthesis of biologically active compounds, to obtain enantioenriched allylic alcohols, as illustrated by the synthesis of conduritols derivatives 84 or the aggregation pheromone of the Douglas-fir beetle 85 , as well as enantioenriched oxiranes, intermediates for the synthesis of (—)-isomenthone 86 ° (Scheme 34). 

A flexible entry into 2,4-disubstituted furan derivatives through condensation of the sulfur ylide derived from 20 with aldehydes, Pd-catalyzed opening of the vinyl oxirane thus formed, and a final oxidative cyclization of the furan ring was reported. Its utility was exemplified by the first total synthesis of the marine natural product ircinin-4 (21) <99SL29>. 

A stereoselective total synthesis of dendrobatide toxin 251 D was developed by Overman et al.237) involving an epoxidation of the (S)-proline derivative (237) to furnish the oxirane (238) as major product. In their approach towards the total synthesis of the same natural product Thomas et al.238) investigated the stereoselectivity of the epoxide formation from (S)-5-acetylpyrrolidin-2-one and dimethyloxosulfonium methylide. A diastereoselectivity of d.s. 50-60% was achieved 238. ... 

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