Hemiacetal reductions

Halocarbons, ketone-alcohol reduction, 84 Halogenation, 4-methylbenzyl chloride [reductive halogenation of aldehyde to benzyl chloride], 124 Hemiacetals, reduction of, 97-99 Hemiaminals, reduction of, 99-100 Hemiketals, reduction of, 97-99 Heptene derivatives, alkene to alkane reductions, disubstituted alkenes, 36-38... 

Uses Reducing agent for org. haiides, cyciic hemiacetals, reduction of enones to ketones, conversion of 0-acetyi furanoses and pyranoses to deoxy sugars siiyiating agent Manuf./Distrib. ABCR http //www.abcr.de, Acros... 

Hong and coworkers have taken advantage of hemiacetal reductions to synthesize lignan natural products. In the course of their studies, they discovered that the relative stereochemistiy of the products that come from the activatiOTi and reductimi of hemiketal 4 was dependent upon the conditions used to cany out the reaction (Scheme 2) [7]. Namely, they found that 2,5-c/s-tetrahydrofuran isomer 5, as needed for the synthesis of (—)-futokadsurin A and (—)-veraguensin, came from the rapid NaBHaCN reduction of the intermediate oxocarbenium ion that comes... 

The synthesis of 11-oxaprostaglandlns from o-glucose uses the typical reactions of gl cofuranose diacetonide outlined on p. 267. Reduction of the hemiacetal group is achieved a thioacetal. The carbon chains are introduced by Wittig reactions on the aldehyde grou] which are liberated by periodate oxidation and laaone reduction (S. Hanessian, 1979 G Lourens, 1975). 

The carbonyl group of carbohydrates can be reduced to an alcohol function Typi cal procedures include catalytic hydrogenation and sodium borohydnde reduction Lithium aluminum hydride is not suitable because it is not compatible with the solvents (water alcohols) that are required to dissolve carbohydrates The products of carbohydrate reduc tion are called alditols Because these alditols lack a carbonyl group they are of course incapable of forming cyclic hemiacetals and exist exclusively m noncyclic forms... 

Vanillin, being an aldehyde, is able to form acetals and hemiacetals. Therefore, in flavor formulations using high concentrations of vanillin in conjunction with carriers such as propylene glycol, a glc analysis often shows a reduced vanillin peak after storage of the compounded flavor, and the presence of new peaks indicating acetal formation. Addition of about 0.5% of water to the formula reverses the reaction, ie, there is a reduction of acetal, and the reappearance of vanillin peaks. 

Although 3y5-hydroxy-A -l9-aldehydes can be obtained from the corresponding oxime by acid treatment, the most efficient method for the production of A -19-aldehydes is nitrosation of the oximes followed by zinc reduction of the 5a-halo hemiacetal. ... 

Treatment of an aldose or ketose with NaBH4 reduces it to a polyalcohol called an alditol. The reduction occurs by reaction of the open-chain form present in the aldehyde/ketone hemiacetal equilibrium. Although only a small amount of the open-chain form is present at any given time, that small amount is reduced, more is produced by opening of the pyranose form, that additional amount is reduced, and so on, until the entire sample has undergone reaction. 

Aldehydes and ketones can be converted to ethers by treatment with an alcohol and triethylsilane in the presence of a strong acid or by hydrogenation in alcoholic acid in the presence of platinum oxide. The process can formally be regarded as addition of ROH to give a hemiacetal RR C(OH)OR", followed by reduction of the OH. In this respect, it is similar to 16-14. In a similar reaction, ketones can be converted to carboxylic esters (reductive acylation of ketones) by treatment with an acyl chloride and triphenyltin hydride. " ... 

A more general route to 4-acetoxy-l,3-dioxanes utilizes the reductive acylation of l,3-dioxane-4-ones [46] (Scheme 21). l,3-Dioxane-4-ones 126 are prepared from the corresponding -hydroxy carboxylic acids. Low temperature reduction with DIBALH generates a diisobutylaluminum hemiacetal (127) which undergoes acylation in situ with AC2O in the presence of pyridine and DMAP. This method allows for the preparation of a wide range of 4-acetoxy-l,3-dioxanes, without the problem of a-epimerization. This method also represents a general approach to acylic a-acetoxy ethers, which are themselves useful synthetic intermediates [47,48]. 

Periodate oxidation followed by reduction and acid hydrolysis gave rise to glycerol and Xyl in a molar ratio of 88 12. However, when the polyol was reoxidized with periodate and reduced, acid hydrolysis gave rise to glycerol and Xyl in a molar ratio of 94 6, as expected. Interunit hemiacetal formation must have taken place during the initial periodate treatment inhibiting further oxidation. 

The most widely used reagent for partial reduction of esters and lactones at the present time is diisobutylaluminum hydride (DiBAlH).83 By use of a controlled amount of the reagent at low temperature, partial reduction can be reliably achieved. The selectivity results from the relative stability of the hemiacetal intermediate that is formed. The aldehyde is not liberated until the hydrolytic workup and is therefore not... 

Another interesting reaction is the very slow acid-induced rearrangement-hydration of kuomine. This reaction results in the formation of a labile hemiacetal, hydrakouminol (54), and its reduction with a borane complex in... 

It is well known that in the cyclization of a y-hydroxy aldehyde to form the corresponding six-membered ring hemiacetal through intramolecular cyclization the hemiacetal form always predominates (48). This might account for the fact that no noticeable carbonyl absorption has been observed in the IR and NMR spectra of 54. However, the equilibrium between the hemiacetal and the aldehyde forms might shift in favor of the aldehyde form as the borane reduction proceeds until 54 is completely transformed to 55. 

Vassilikogiannakis and coworkers described a simple sequential process for the biomimetic synthesis of litseaverticillol B (4-159) which includes a cycloaddition of 4-158 and singlet oxygen to give 4-160, followed by ring opening to afford the hydro-genperoxide 4-161 (Scheme 4.34) [55]. Reduction of 4-161 led to the hemiacetal 4-162, which underwent an aldol reaction to afford 4-159. 

Denmark and coworkers have found that methylaluminum bis (2,6-di-tert-butyl-4-methyl-phenoxide) (MAD) or methylaluminum bis(2,6-diphenylphenoxide) (MAPh) is effective as the Lewis acid promoter for cycloaddition of 2,2-disubstituted 1-nitroalkenes (Eq. 8.100).158 Other Lewis acids such as SnCl4, TiCl4, and TiCl2(Oi-Pr)2 fail to promote the cycloaddition of 2,2-disubstituted 1-nitroalkenes. The products are converted into 3,3-disubstituted pyrrolidines via hydrogenolysis.158 Reductive cleavage of N-0 bonds produces oxime hemiacetals, which are further reduced to amido aldehydes and finally to pyrrolidines. This reaction provides a useful synthetic method for pyrrolidines, which is discussed later. 

To avoid the retro-Diels-Alder reaction, 56 was dihydroxylated prior to the introduction of the bromine atom (57). Removal of the acetonide group followed by cleavage of the diol afforded a bis-hemiacetal. Selective reduction of the less-hindered hemiacetal group gave 58. The remaining hemiacetal was protected, and the ketone was converted to an enol triflate, thus concluding the synthesis of the electrophilic coupling component 51. 

Ethenylcyclopropyl tosylates 131 and 2-cyclopropylideneethyl acetates 133, readily available from the cyclopropanone hemiacetals 130, undergo the re-gioselective Pd(0)-catalyzed nucleophilic substitution via the unsymmetrical 1,1-dimethylene-jr-allyl complexes. For example, reduction with sodium formate affords a useful route from 131 to the strained methylenecyclopropane derivatives 132. The regioselective attack of the hydride is caused by the sterically... 

Reduction of Acetals, Ketals, Hemiacetals, Hemiketals, and Orthoesters... 

Takano s group reported the first enantioselective total synthesis of (—)-anti-rhine as well (146). Chiral product 235 was prepared via a number of stereoselective reactions. Reductive condensation of 235 with tryptamine, using sodium cyanoborohydride at pH 6, supplied lactam 236, which was reduced by di-isobutylalminum hydride to hemiacetal 237. The latter could be cyclized to (-)-antirhine by simple acid treatment (146). 

Applying the procedure just described, Rouzaud and Sinay (65) described a stereospecific synthesis of a C-disaccharide in which a methylene group takes the place of the interunit oxygen atom. Starting from 51a and the dibromoalkene 59, the hemiacetal 60 was obtained. Reduction of 60, followed by catalytic hydrogenolysis, gave the /J-(l — 6)- C-disaccharide 61. 

The hemiacetal pheromone was first prepared in low yield as a mixture of isomers (Scheme 20) [108]. Thus, oxidative coupling of the dianion of ( )-3-hexenoic acid 127 and LiAlH4 reduction of the resulting diacid produced a mixture of diols from which the EyE-meso isomer 128 could be separated. The meso... 

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