Ether derivatives, formation

Isotope labeling by derivative formation with deuterated reagents is useful for the preparation of analogs such as dg-acetonides, da-acetates, da-methyl ethers, dg-methyl esters, etc. The required reagents are either commercially available or can be easily prepared. (The preparation of da-methyl iodide is described in section IX-F. Various procedures are reported in the literature for the preparation of dg-acetone, da-diazometh-ane57.i63.i73 and da-acetyl chloride. ) These reactions can be carried out under the usual conditions and they need no further discussion. A convenient procedure has been reported for the da-methylation of sterically hindered or hydrogen bonded phenolic hydroxyl functions by using da-methyl iodide and sodium hydroxide in dimethyl sulfoxide solution. This procedure should be equally applicable to the preparation of estradiol da-methyl ether derivatives. 

Finally, the in situ formation and thermolysis of trialkyltin ethers derived from tertiary homoal-lylic alcohols has been developed into a useful allylstannane synthesis39,40. This fragmentation is the reverse of the addition of an allylstannane to a ketone41. 

Selenski investigated the use of chiral enol ether auxiliaries in order to adapt method F-H for enantioselective syntheses. After surveying a variety of substituted and unsubstituted enol ethers derived from a vast assortment of readily available chiral alcohols, she chose to employ enol ethers derived from trans-1,2-phenylcyclohexanol such as 73 and 74 (Fig. 4.37). These derivatives were found to undergo highly diastereoselective cycloadditions resulting in the formation of 75 and 76 in respective... 

Scheme 3) [30]. The pY + 3 diversity alcohols (Ri)-OI I (Fig. 15) were attached to the template through a Mitsunobu coupling to provide ether derivatives of 16. Palladium-mediated Alloc deprotection followed by amide formation using the phosphate-ester-containing diversity acids (R2)-C02H provided the fully coupled resin-bound products of 17. Cleavage from the resin with 95% TFA/H20, which also afforded benzyl phosphate deprotection, followed by reversed-phase (RP) semipreparative... 

The scope of the acid-catalyzed formation of C-glycosyl compounds has been greatly expanded with the finding that enol ethers and ketene acetals can be used as the carbon source in electrophilic substitution reactions at the anomeric center.126 Treatment of 198 with the trimethylsilyl enol ether derived from cyclohexanone, in the presence of stannic chloride, led to 2-(2,3,5-tri-0-benzoyl-/J-D-ribofuranosyl)cyelohexanone (206), presumably by way of the inter-... 

As was mentioned previously, certain disubstituted styrene ethers can be efficiently resolved through the Zr-catalyzed kinetic resolution. As illustrated in Eq. 7, optically pure cycloheptenyl ether 64c is obtained by the Zr-catalyzed process. The successful catalytic resolution makes the parent alcohol and the derived benzyl ether derivatives 64a and 64b accessible in the optically pure form as well. However, this approach cannot be successfully applied to all the substrates shown in Table 1. Lor example, under identical conditions, cyclopentenyl susbstrate 60b is recovered in only 52% ee after 60% conversion. Cycloheptenyl substrates shown in entry 4 undergo significant decomposition under the Zr-catalyzed carbomagnesation conditions. These observations indicate that future work should perhaps be directed towards the development of a chiral metathesis catalyst that effects the chromene formation and resolves the two styrene ether enantiomers simultaneously. 

On studying the KDO content of LPS from Xanthomonas sinensis, Volk and coworkers64 found that only one KDO residue per LPS chain is present in this organism. Moreover, the authors observed the formation of 4,7- and 4,8-anhydro derivatives (39 and 40) of KDO (see Scheme 14) under the conditions used for mild hydrolysis of the LPS with acetic acid. Free KDO was also shown to yield the anhydro derivatives under analogous conditions. The structures of these unusual side-products were identified by mass spectrometry, as follows. Reduction of 39 and 40 with sodium borohydride gave the two epimeric mixtu.es, 41 and 42. These were subjected to periodate treatment followed by borohydride reduction, the products separated by paper electrophoresis, and their trimethylsilyl ether derivatives analyzed by... 

The addition of allenyl ether-derived anions to Weinreb [4] or to morpholino amides [5] follows a slightly different pathway (Eq. 13.2). For example, the addition of lithioallene 6 to Weinreb amide 7 at -78 °C, followed by quenching the reaction with aqueous NaH2P04 and allowing the mixture to warm to room temperature leads to cyclopentenone 9 in 80% yield [6]. The presumed intermediate of this reaction, allenyl vinyl ketone 8, was not isolated, as it underwent cyclization to 9 spontaneously [7]. These are exceptionally mild conditions for a Nazarov reaction and are probably a reflection of the strain that is present in the allene function, and also the low barrier for approach of the sp and sp2 carbon atoms. What is also noteworthy is the marked kinetic preference for the formation of the Z-isomer of the exocyclic double bond in 9. Had the Nazarov cyclization of 8 been conducted with catalysis by strong acid, it is unlikely that the kinetic product would have been observed. 

Both reactions act to reduce hydrogen bonding within the coal structure which may have a direct positive impact on liquefaction reactivity. More indirectly, these reactions lower the concentration of OH species in coal-derived products and hence, reduce the extent of retrogressive condensation via ether bridge formation. Reducing production of THF-insoluble condensation products increases the net THF-soluble coal conversion observed during the liquefaction experiment. None of the spectra from coals pretreated with alkyl alcohols and HCl showed any significant evidence of alkylation at carbon sites in the coal. 

Oxidative caibon-carbon bond formation from laudanosine derivatives generally favours a 6-membered ring. Severe steric constraints result in exceptions to this rule. Oxidation of the bridged ether derivative 34 results in carbon-carbon bond formation to form a 5-membered ring product and this process has been used for one stage in the synthesis of erythrina alkaloids [138]. Some of the morphinadie-none system is also formed, in spite of the steric constraint imposed by the ether-bridge. 

In another example, a catalytic amount of cerium triflate hydrate was dispersed and isolated in [BMIMJPFg for the direct formation of tetrahydropyranol derivatives. The reaction involves a simple homoallyl alcohol and an aldehyde. When an organic solvent such as chloroform was employed, an undesired ether derivative formed as the major product. In the ionic liquid, however, the desired tetrahydropyranol was exclusive. Although the yield was moderate, this example constitutes the first relatively facile and direct formation of the synthetically useful pyranol derivative the only effective catalyst reported is the ionic liquid (168). 

In this case, the presence of the acid HRu(C0) I, as depicted in Scheme 3, also seems to play an essential role in the activation of the C-0 bond of the different ether derivatives and in the evolution of the alkyl and acyl intermediates toward hydrogenation and carbonylation products. The formation of diethyl carbonate may be related to the substitution of an I" by an EtO group in HRu(CO)2l3 promoted by the [CH(0Et)2] base. The ethoxy intermediate is then carbonylated to an ethoxycarbonyl derivative and transformed into diethyl carbonate by a nucleophilic attack by ethanol (Scheme 4). 

Industrial development of homologation processes for dimethyl ether, methyl formate, methyl acetate and acetic acid is likely only if they are integrated into a comprehensive plant for the production of C2 derivatives from syn-gas (Scheme 5). 

Although sodium methoxide is also generally used for epoxide formation, it cleaves the epoxide ring only after heating at reflux temperatures for several hours (to give methyl ether derivatives), and no difficulty is experienced in controlling these separate reactions. 

Derivative formation prior to chromatographic analysis has been used successfully. An unidentified component of urine was found which had a retention time very close to that of pregnanediol and which could not be separated from it by thin layer chromatography. The trimethylsilyl ether derivatives and the tri-fluoroacetate derivatives of the two compounds would not provide resolution only the acetate derivatives could be separated. 

The conventional vinylidene complex could be isolated when the hydroxyl group was protected as the tetrahydropyranyl ether derivative reaction of this with acid immediately gave the cyclic carbene complex, even under mild conditions. The reaction is related to the formation of similar nickel(II)- and platinum(IV)-carbene complexes from the [Pg.71]

A number of oxidants are able to selectively transform silyl ethers derived from primary alcohols into aldehydes in the presence of silyl ethers derived from secondary alcohols. This allows to perform selective oxidations, whereby persilylation of polyols is followed by the selective oxidation of primary silyl ethers, resulting in the formation of aldehydes possessing secondary alcohols protected as silyl ethers. As expected, the mild transformation of primary silyl ethers into aldehydes is only possible with silyl ethers that are not exceedingly robust, such as TMS, TES and TBS ethers. 

The effect of Ba2+ or Sr2+ on the substitution of the crown ether derivatives 2, 5, 8, 11, 14 -pcntaoxacyclopcntadccyl-3,6-dioxohcptyl tosylate or 2,5,8,11,14-pentaoxacyclopentadecylmethyl tosylate with MeO, in the form of Me4NOMe, showed that Ba2+ was the better catalyst.127 The kinetics, formation constant, and the interaction of the lariat with the metal cation are discussed. 

A 1,2-hydride shift has been invoked399 to account for the formation of p-methoxyphenylbutyraldehyde derivatives (337) during the treatment of />methoxy-benzyl-protected allylic alcohols (336) with zeolites. A similar C-glycosidation procedure involving Lewis acid-catalysed anomeric oxygen to carbon rearrangement of tetrahydropyranyl ether derivatives has been reported400 (see Scheme 82). It has been... 

Structurally related dienols and acyclic trienols, when reacted in fluorosulfuric acid, give tricyclic ether derivatives in kinetically controlled cyclization.810,811 The stereospecific product formation is rationalized by synchronous internal anti-addition via chair-like conformations of the protonated cyclohexene ring, resulting in ring closure with equatorial C-C bond formation and concomitant internal nucleophilic termination by anti-addition of the OH group [Eq. (5.294)]. Z/E isomerization may be competitive with cyclization. 

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