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Ethanol Ethers, protection

The first total synthesis of the intricate Stemona alkaloid (+ /—)-isostemofoline (224) was reported by Kende and coworkers 81) starting from 1,2-hexanediol (225) which was straightforwardly converted to 227 (Scheme 22) 82). Reductive cycUzation with sodium hydrosulfite in refluxing aqueous ethanol, and protection of the unstable pyrrole as tert-butyl carbamate, afforded 228 in five steps with 12% overall )deld. The key bicyclic ketone 231 was assembled by [4 + 3] cycloaddition of pyrrole 228 and diazoester 229 promoted by rhodium octanoate dimer, followed by enol silane deprotection, exo-specific hydrogenation, and nucleophilic decarboxylation (47% overall yield). Sodium methoxide-catalyzed aldol condensation of ketone 231 and furfural provided the Q-j/i-unsaturated ketone 232 whose olefin configuration was established by nOe studies. Allylation of 232 provided a 2.4 1 mixture of ketone 234 and the corresponding allylic enol ether 233, which could be converted to the former via a stereoselective Claisen rearrangement. [Pg.161]

If the source of the polyunsaturated acid is a tissue rather than a pure fat or oil, the total lipid must first be extracted by some method of wet extraction. For example, Holman and Greenberg (1953) employ ethanol, or ethanol-ether, as a solvent, or separate the acid after digestion of the tissue with 30% potassium hydroxide. It is important to protect the sample as much as possible during all stages of preparation, and for this reason the reactions are generally carried out as far as is practicable under nitrogen. After isolation of the lipid mixture, the material is saponified (if this step has not been previously carried out), and the acid is freed, washed, and dried. [Pg.32]

Glycol Ethers. Glycol ethers are produced by reaction of propylene oxide with various alcohols such as methanol, ethanol, butanol, and phenol. The products are the mono-, di-, and tripropylene glycol ethers. These products are used in protective coatings, inks, textile dyeing, cleaners, antiicing additives for jet fuel, and as chemical intermediates (276). [Pg.143]

Pyndinium p-toluenesuHonate (PPTS) reagent 1 for protection of alcotwls as the tetrahydropyranyt ethers as well as for cleavage of ethers (in warm ethanol)... [Pg.150]

This ether, developed for the protection of a pyranoside anomeric hydroxyl, is prepared via a Konigs-Knorr reaction from the glycosyl bromide and 2-(ben-zylthio)ethanol in the presence of DIPEA. It is cleaved, after oxidation with dimethyldioxirane, by treatment with LDA or MeONa. ... [Pg.65]

The United States Environmental Protection Agency (U.S. EPA) has identified several hundred MTBE-contaminated sites that have performed treatment of soil and groundwater to remove or destroy MTBE.1 Many of these sites have also treated other fuel components, primarily benzene, toluene, ethylbenzene, and xylene (BTEX), and some have treated fuel oxygenates other than MTBE. Although others have reported about treatment technologies for MTBE cleanup,2 only limited information has been published about cleanup of other oxygenates. These oxygenates include ether compounds, such as ethyl tert-butyl ether (ETBE), tert-amyl methyl ether (TAME), diisopropyl ether (DIPE), and tert-amyl ethyl ether (TAEE), as well as alcohol compounds, such as tert-butyl alcohol (TBA), tert-amyl alcohol (TAA), ethanol, and methanol. [Pg.987]

A convenient synthesis of uridine 2, 3 -cyclic phosphite 15 (as a 3 4 mixture of diasteroisomers because of the chirality at phosphorus) was based on the reaction of the suitably protected uridine derivative 14 with ethyl dichlorophosphite carried out in the presence of triethylamine and anhydrous ethanol (Scheme 6) [21]. After adding ethanol into the reaction medium, an efficient chromatographic separation of the crude reaction product was achieved on silica gel with diethyl ether giving analytically pure phosphite 15 in 75% yield. It is interesting to note that without adding ethanol, 15 is very unstable. [Pg.107]

Hydroxy-containing fluorovinyl ether monomers (5,6) were prepared in excellent yields (80-90%) in a single step from the corresponding esters (1,3)12"14 with sodium borohydride in absolute ethanol. Protection of the sensitive vinyl ether groups was not required during the reduction. In contrast, the use of a more powerful reducing agent, such as lithium aluminum hydride, resulted in the reduction of the double bond ... [Pg.52]

Both of these general anaesthetics have long been known to oxidize in the presence of air and sunlight. Chloroform was shown to photo-oxidize to a peroxide of uncertain structure which collapsed to the poison gas phosgene. Anaesthetic chloroform is protected by the addition of ethanol, which intercepts the initial free radical and prevents the photodegradation [17]. Diethyl ether... [Pg.56]

Thermolytic Cleavage of Allvlic and Benzvlic Ethers and Polvethers. The thermal lability of the types of ethers which are of interest in the context of this study was discovered during a thorough study of the application of certain benzylic carbonates as labile protecting groups for alcohols and phenols [IS]. It was observed that, under acid catalysis, the bis-methylcarbonate derivative of l-(4-hydroxyphenyl)ethanol (4, in Equation 1) was transformed into the benzylic ether (5) which then underwent clean acid-catalyzed thermolysis to the corresponding styrene (6) in very high yield [14]. [Pg.103]

It is not customary to attempt the isolation of ketone or aldehyde intermediates (121) the formula serves merely as a reminder that once hydrolysis of the protecting enol ether or acetal occurs, the same type of structure is formed from any given dicarbonyl compound. Cyclization has been carried out in refluxing ethanolic picric acid or acetic anhydride with a few drops of sulfuric acid, but Hansen and Amstutz (63JOC393) offered excellent theoretical reasons for avoiding an excess of acid, and reported that best results (Table 3) can be obtained by refluxing the dry hydrobromide in acetic anhydride containing no sulfuric acid. [Pg.552]

N-alkylation and N-acylation of piperazine-2,5-diones are quite common and have been routinely employed in several synthetic sequences (see Section IV,C). Such operations have also been performed as measures for the temporary protection of the nitrogen during further synthetic maneuvers in other parts of the molecule. Three different alkyl groups have been employed as such protecting groups. Kishi has used the methoxymethyl group for N-protection (potassium r-butoxide, chloro-methyl methyl ether 0°C, 75% yield). Deprotection was achieved by cone. HCl-ethanol at reflux temperature (81T2045). [Pg.204]

The superfluous bromine is then removed by reduction with zinc in acetic acid (26-1). The 20 ketone is next protected against the strongly reducing conditions in the subsequent step by conversion to the ethylene glycol acetal (26-2). Birch reduction with lithium in liquid ammonia in the presence of ethanol proceeds as usual to the dihydrobenzene (26-3). Treatment of this last product with mineral acid serves to hydrolyze both the enol ether at the 3 position and the acetal at the... [Pg.136]

See other pages where Ethanol Ethers, protection is mentioned: [Pg.130]    [Pg.134]    [Pg.53]    [Pg.130]    [Pg.134]    [Pg.593]    [Pg.249]    [Pg.6]    [Pg.295]    [Pg.514]    [Pg.418]    [Pg.243]    [Pg.133]    [Pg.438]    [Pg.3]    [Pg.232]    [Pg.4]    [Pg.188]    [Pg.223]    [Pg.157]    [Pg.96]    [Pg.292]    [Pg.64]    [Pg.144]    [Pg.8]    [Pg.70]    [Pg.272]    [Pg.247]    [Pg.32]    [Pg.106]    [Pg.46]    [Pg.100]    [Pg.24]    [Pg.36]    [Pg.61]    [Pg.66]    [Pg.209]   
See also in sourсe #XX -- [ Pg.181 ]



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