Intramolecular reaction etherification

Suffert, J. Raeppel, S. Raeppel, F. Didier, B. Straightforward access to [6]metacyclophene-based enynes by an inter-intramolecular tandem etherification through a one-pot double S Ar reaction. Synlett 2000, 874-876. 

Allyl vinyl ethers have also been obtained by elimination reactions, e.g., intramolecular bromo-etherification/base-catalyzed hydrogen bromide elimination164 166( 0r the phenylseleno etherifi-cation/selenoxide elimination reaction158 167. Tertiary allylic alcohols have been vinylated by a Michael-type addition to a vinyl sulfoxide followed by elimination of benzenesulfenic acid168. 

Intermediate 8, the projected electrophile in a coupling reaction with intermediate 7, could conceivably be derived from iodolactone 16. In the synthetic direction, cleavage of the acetonide protecting group in 16 with concomitant intramolecular etherification could result in the formation of the functionalized tetrahydrofuran ring of... 

The hydroxylation reaction, whose stereochemical course is controlled by the strong inherent preference for the formation of a cis-fused 5,5 ring system, creates a molecule which would appear to be well suited for an intramolecular etherification reaction to give ring E of ginkgolide B (1). Indeed, when a solution of 11 in methylene chloride is exposed to camphorsulfonic acid (CSA), a smooth cycli-zation reaction takes place to give intermediate 10 in an overall yield of 75% from 12. The action of CSA on 11 produces a transient oxonium ion at C-12 which is intercepted intramolecularly by the proximal hydroxyl group at C 4. 

A trifold anionic/pericyclic domino reaction was used for the synthesis of the dioxapyrrolizidine 2-655 combining a nitro aldol condensation, SN-type cyclization, SN-type etherification, and an intramolecular 1,3-dipolar cyclization as described by Rosini and coworkers (Scheme 2.148) [339]. 

Scheme 21 shows the synthesis of a dihydrofuran derivative 86. Synthesis of this compound was described by Nam et al. [68] utilizing a furanone compound 87 synthesized by Kim et al. [61] via a similar synthetic approach as described in Scheme 17. The lactone was reduced using lithium aluminum hydride to give the diol 88 and intramolecular etherification using the Mitsunobu reaction afforded the dihydrofuran 86 in moderate yield (47%).

This intramolecular etherification approach has successfully been applied to the syntheses136 of siccanin137 and clusifoliol,136 and a formal synthesis of morphine.138 Examples of tandem inter- and intramolecular etherification reactions have also been reported which convert catechol and o-aminophenol derivatives into benzodioxins (Equation (24)),139-141 benzodioxepines,142 and morpholines.139,140... 

Pd-catalyzed intramolecular etherification reactions of aliphatic alcohols have also been practiced in tandem with other bond-forming processes, such as a Pd-catalyzed allyltin addition to an aldehyde (Equation (32)).160 Similarly, a tandem C-N and G-O bond formation sequence occurs (Equation (33)) during the reactions of /3-amino alcohols with biscarbonates in the presence of the N,O-acetal-derived ligand 43.161-163... 

The reaction of acceptor-substituted carbene complexes with alcohols to yield ethers is a valuable alternative to other etherification reactions [1152,1209-1211], This reaction generally proceeds faster than cyclopropanation [1176], As in other transformations with electrophilic carbene complexes, the reaction conditions are mild and well-suited to base- or acid-sensitive substrates [1212], As an illustrative example, Experimental Procedure 4.2.4 describes the carbene-mediated etherification of a serine derivative. This type of substrate is very difficult to etherify under basic conditions (e.g. NaH, alkyl halide [1213]), because of an intramolecular hydrogen-bond between the nitrogen-bound hydrogen and the hydroxy group. Further, upon treatment with bases serine ethers readily eliminate alkoxide to give acrylates. With the aid of electrophilic carbene complexes, however, acceptable yields of 0-alkylated serine derivatives can be obtained. 

Alkoxy(trisdimethylamino)phosphonium salts (PF6, C104 or BF4 as anions)765 are also used for the same purpose with good yields of course, alkoxy groups can be chosen as optically active451,766,767. Moreover, when the alkoxy chain is functionalized in the appropriate position by oxyanions, intramolecular etherification is made possible 3,6-anhydrohexosides were prepared in this way537 (reaction 232). 

Aldehydes, ketones, and acetals react with allyltrimethylsilane in the presence of a catalytic amount of BiX3 (X = C1, Br, OTf) to give homoallyl alcohols or homoallyl alkyl ethers (Equation (52)).91-93 The BiX3-catalyzed allylation of aldehydes and sequential intramolecular etherification of the resulting homoallylic silyl ethers are involved in the stereoselective synthesis of polysubstituted tetrahydropyrans (Equation (53)).94,95 Similarly, these Lewis acids catalyze the cyanation of aldehydes and ketones with cyanotrimethylsilane. When a chiral bismuth(m) catalyst is used in the cyanation, cyanohydrines are obtained in up to 72% ee (Equation (54)). a-Aminonitriles are prepared directly from aldehydes, amines, and cyanotrimethysilane by the BiCl3-catalyzed Strecker-type reaction. 

In the asymmetric synthesis of axially chiral biaryls, the formation of two C-O bonds is the key step in the etherification of 2,2, 6,6 -tetrahydroxybiphenyl 187 (Scheme 21). Sequential etherification of the biaryl 187 with 1,4-di-O-benzyl-L-threitol 188 under the Mitsunobu conditions afforded the monoether 189. After deprotection of the /-butyldimethylsilyl (TBDMS) group with Bu4NF, the intermediate alcohol was again subjected to the Mitsunobu reaction in situ. The intramolecular cyclization proceeded smoothly to give 190 in high yield (for R= Bn, m.p. 138-139°C) <2000JOC1335>. 

As shown in the following scheme, a SEM-ether derived phenyl acetylene was treated with PtClj in the presence of CO to give a benzo[4>]furan, which was first subjected to desilylation, followed by Pd-catalyzed intramolecular etherification, affording the tetracyclic skeleton of pterocarpane family of phytoalexins <05JA15024>. A similar type of synthetic transformation was so applied to make a key intermediate in the total synthesis of vibsanol <05JA15022>. 2,3-Disubstituted benzo[h]furans were prepared under very mild reaction conditions by the Pd/Cu-catalyzed cross-coupling of various o-iodoanisoles and terminal... 

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