Hydroxy compounds reduction

A conjugated 3-oxo group is not easily reduced by yeast however. Clostridium paraputrificum selectively reduces these steroids to the 3a-hydroxy compounds. Reduction of the 17-oxo group to 17/ -hydroxysteroids can be achieved with baker s yeast, while reduction of the 20-oxo group can be performed in most cases with S treptomyces strains. 

The zwitterion (6) can react with protic solvents to produce a variety of products. Reaction with water yields a transient hydroperoxy alcohol (10) that can dehydrate to a carboxyUc acid or spHt out H2O2 to form a carbonyl compound (aldehyde or ketone, R2CO). In alcohoHc media, the product is an isolable hydroperoxy ether (11) that can be hydrolyzed or reduced (with (CH O) or (CH2)2S) to a carbonyl compound. Reductive amination of (11) over Raney nickel produces amides and amines (64). Reaction of the zwitterion with a carboxyUc acid to form a hydroperoxy ester (12) is commercially important because it can be oxidized to other acids, RCOOH and R COOH. Reaction of zwitterion with HCN produces a-hydroxy nitriles that can be hydrolyzed to a-hydroxy carboxyUc acids. Carboxylates are obtained with H2O2/OH (65). The zwitterion can be reduced during the course of the reaction by tetracyanoethylene to produce its epoxide (66). 

The reduction of 1 l-keto-9 -H steroids gives an lla-ol, due to the fact that ring B or C must be in the boat form. The presence of bromine at the 2a-, 5a- and 12a-positions does not afifect greatly the isomer composition resulting from reduction of 3-, 6- and 11-ketones respectively. When in a 7-keto steroid the bromine is in the 6a-position a mixture of la- and 7 -ols results when the bromine is in the 6 -position only the 7jS-hydroxy compound is obtained. " The presence of bromine in the 16a- or 16 -positions seems to reduce the amount of 17 -alcohol formed. ... 

The presence of an a-bromo substituent may cause anomalies. With NaBH4, 2a-bromo-5a-cholestan-3-one gives a mixture of epimers, in which the 3p-o predominates. 4 -Bromo-17)5-hydroxy-5)5-androstan-3-one acetate gives 25% of the 315,4 -bromohydrin and 34% of the 3a,4)5-compound. Reduction of 7a-bromo-3)5,5a-diacetoxycholestan-6-one gives exclusively 7a-bromocholestane-3)5,5a,6a-triol 3,5-diacetate,whereas reduc-... 

When the C/D ring fusion is cis, the 17a-hydroxy compound is the main product from NaBH4 reductions of l7-keto-13a-androst-5-en-3)9-oE or 14/ -H compounds. The absence of a 10-methyl also affects the course of the reaction when rings A and B are cw-fused. A 19-nor-5/ -H 3-ketone is reduced to the 3/ -isomer, as is a 10a-H-5a-H-19-nor-3-keto compound. ... 

The stereochemistry of the product resulting from the reaction of a 17-keto steroid with ethylidenetriphenylphosphorane is different from that of the 17-ethylidene steroids obtained by dehydration of 17a-ethyl-17/ -hydroxy compounds, Wolff-Kishner reduction of A -20-keto steroids or by sodium-alcohol or sodium-ammonia " reductions of 17-ethynyl carbinols. These latter products have generally been assumed to possess the trans configuration (C-21 methyl away from the bulk of the ring system) because of anticipated greater stability. The cis configuration for... 

The use of benzyl alcohol as solvent produces the dibenzyl acetal at C-21, and this can be reductively removed to produce the 21-hydroxy compound... 

In further modifications of these norprogestins, reaction of norethindrone with acetic anhydride in the presence of p-toluene-sulfonic acid, followed by hydrolysis of the first-formed enol acetate, affords norethindrone acetate (41). This in turn affords, on reaction with excess cyclopentanol in the presence of phosphorus pentoxide, the 3-cyclopentyl enol ether (42) the progestational component of Riglovic . Reduction of norethindrone affords the 3,17-diol. The 33-hydroxy compound is the desired product since reactions at 3 do not show nearly the stereoselectivity of those at 17 by virtue of the relative lack of stereo-directing proximate substituents, the formation of the desired isomer is engendered by use of a bulky reducing agent, lithium aluminum-tri-t-butoxide. Acetylation of the 33,173-diol iffords ethynodiol diacetate, one of the most potent oral proves tins (44). ... 

The final stages of the successful drive towards amphotericin B (1) are presented in Scheme 19. Thus, compound 9 is obtained stereoselectively by sodium borohydride reduction of heptaenone 6a as previously described. The formation of the desired glycosida-tion product 81 could be achieved in dilute hexane solution in the presence of a catalytic amount PPTS. The by-product ortho ester 85 was also obtained in approximately an equimolar amount. Deacetylation of 81 at C-2, followed sequentially by oxidation and reduction leads, stereoselectively, to the desired hydroxy compound 83 via ketone 82. The configuration of each of the two hydroxylbearing stereocenters generated by reduction of carbonyls as shown in Scheme 19 (6—>9 and 82->83) were confirmed by conversion of 83 to amphotericin B derivative 5 and comparison with an... 

All that remains before the final destination is reached is the introduction of the C-l3 oxygen and attachment of the side chain. A simple oxidation of compound 4 with pyridinium chlorochro-mate (PCC) provides the desired A-ring enone in 75 % yield via a regioselective allylic oxidation. Sodium borohydride reduction of the latter compound then leads to the desired 13a-hydroxy compound 2 (83% yield). Sequential treatment of 2 with sodium bis(trimethylsilyl)amide and /(-lactam 3 according to the Ojima-Holton method36 provides taxol bis(triethylsilyl ether) (86 % yield, based on 89% conversion) from which taxol (1) can be liberated, in 80 % yield, by exposure to HF pyridine in THF at room temperature. Thus the total synthesis of (-)-taxol (1) was accomplished. 

Reduction of the nitro group in 70 with zinc in hot sodium hydroxide results in formation of pyrrolo[2,l-(f][l,2,5]benzotriazepine 71 by intramolecular coupling of the amino group with the newly formed nitroso group (Scheme 16). If the reduction is carried out under the less rigorous conditions of zinc in aqueous ammonium chloride the intermediate hydroxy compound is formed <96T10751>. 

If the p-hydroxy-compound, obtained by boiling diazotised arsanilic acid with water, is nitrated, and the nitro-group so introduced is reduced to the amino-group, further reduction yields the corresponding arseno-compound, salvarsan. (Formulate these reactions )... 

Photochemical oxidation of electron-rich alkenes with the simultaneous reduction of the initially formed peroxide with tetra-n-butylammonium borohydride to the hydroxy compound has been reported, but the procedure has not been shown to be generally useful [16]. 

In the fourth and final chapter, Howard Haubenstock discusses asymmetric reduction of organic molecules. Within this general topic of wide and continuing interest, Haubenstock s chapter deals with chiral derivatives of lithium aluminum hydride, their preparation from suitable amino or hydroxy compounds, and their use in reducing carbonyl groups. Related reactions of the Meerwein-Ponndorf-Verley type or involving tri-alkylaluminum reagents are also presented. 

Types of compounds are arranged according to the following system hydrocarbons and basic heterocycles hydroxy compounds and their ethers mercapto compounds, sulfides, disulfides, sulfoxides and sulfones, sulfenic, sulfinic and sulfonic acids and their derivatives amines, hydroxylamines, hydrazines, hydrazo and azo compounds carbonyl compounds and their functional derivatives carboxylic acids and their functional derivatives and organometallics. In each chapter, halogen, nitroso, nitro, diazo and azido compounds follow the parent compounds as their substitution derivatives. More detail is indicated in the table of contents. In polyfunctional derivatives reduction of a particular function is mentioned in the place of the highest functionality. Reduction of acrylic acid, for example, is described in the chapter on acids rather than functionalized ethylene, and reduction of ethyl acetoacetate is discussed in the chapter on esters rather than in the chapter on ketones. 

Chemoselective demethylation of 1247 by treatment with boron tribromide led to a 4-hydroxy compound, which, after reduction with diborane, was reacted with triflic anhydride (Tf20) to afford the benzyl derivative 1248. Palladium(0)-catalyzed... 

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