Claisen rearrangement alkyl substituents

Some representative Claisen rearrangements are shown in Scheme 6.14. Entry 1 illustrates the application of the Claisen rearrangement in the introduction of a substituent at the junction of two six-membered rings. Introduction of a substituent at this type of position is frequently necessary in the synthesis of steroids and terpenes. In Entry 2, formation and rearrangement of a 2-propenyl ether leads to formation of a methyl ketone. Entry 3 illustrates the use of 3-methoxyisoprene to form the allylic ether. The rearrangement of this type of ether leads to introduction of isoprene structural units into the reaction product. Entry 4 involves an allylic ether prepared by O-alkylation of a (3-keto enolate. Entry 5 was used in the course of synthesis of a diterpene lactone. Entry 6 is a case in which PdCl2 catalyzes both the formation and rearrangement of the reactant. 

The formation of phenolic polymers by Claisen Rearrangement of poly(4-allyloxystyrenes) under acid catalyzed thermolysis conditions has previously been reported in connection with the development high resolution photoresists (14,15). This work was primarily focused on the production of soluble phenolic polymers that could be imaged on the basis of differential dissolution. In this regard, allyloxysty-rene polymers bearing alkyl substituents at the a-position to the ether oxygen atom... 

Some allyl phenyl ethers with an alkyl substituent on the end carbon of the allyl group rearrange to give the normal ortho-Claisen product together with another isomeric O-allyl phenol. The latter, formed by the rearrangement of the normal product, has been established. This is called abnormal Claisen rearrangement, is illustrated by the following example. 

Monoalkylation of a-isocyano esters by using tert-butyl isocyano acetate (R = fBu) has been reported by Schollkopf [28, 33]. Besides successful examples using primary halides, 2-iodopropane has been reported to produce the a-alkylated product (1) as well by this method (KOfBu in THF). In the years 1987-1991, Ito reported several methods for the monoalkylation of isocyano esters, including the Michael reaction under TBAF catalysis as described earlier [31], Claisen rearrangements [34], and asymmetric Pd-catalyzed allylation [35]. Finally, Zhu recently reported the first example of the introduction of an aromatic substituent by means of a nucleophilic aromatic substitution (Cs0H-H20, MeCN, 0°C) in the synthesis of methyl ot-isocyano p-nitrophenylacetate [36]. 

Imidazole-4-carboxylates have been made from amidines derived from or-ainino acids (see Section 2.2.1 and Table 2.2.1), by Claisen rearrangement of the adduct formed when an arylamidoxime reacts with a propiolate ester (see Section 2.2.1 and Scheme 2.2.6), from a-aminocarbonyls with cyanates or thiocyanates (see Section 4.1 and Table 4.1.1), from a-oximino- 6-dicarbonyl compounds heated with an aUcylamine (see Section 4.1 and Scheme 4.1.7), and by anionic cycloaddition of an alkyl isocyanoacetate to diethoxyacetonitrile (see Section 4.2 and Scheme 4.2.11 see also Scheme 4.2.12). A further useful approach is to use an appropriate tricarbonyl compound with an aldehyde and a source of ammonia (see Chapter and Scheme 5.1.1). Irradiation of 1-alkenyltetrazoles bearing an ester substituent may have applications (see Section 6.1.2.3). 

Eilbracht et al. have developed rhodium- or ruthenium-catalyzed one-pot synthesis of cyclopentanones from allyl vinyl ether via tandem Claisen rearrangement and hydroacylation [109-111]. This protocol requires elevated temperature (140-220°C) and also requires alkyl or aryl substituents at the terminal position of the allylic double bond to prevent undesirable double bond migration in the intermediary formed, unsaturated aldehyde. 

An ingenious approach to racemic estrone has used two reactions in a combined tandem Cope-Claisen rearrangement (ref. 130). 1-Bromomethyi-3,4-dihydro-6-methoxynaphthalene is used to alkylate 1-methoxycarbonyl-2-methylcyclopent-2-ene and the ester group in the product converted to a vinyloxymethyl substituent. Thermolysis afforded a mixture of diastereoisomeric aldehydes (2 1) containing a majority of the trans compound. Ozonolysis and epimerisation at the 8-position succeeded by McMurry coupling gave the required tetracyclic structure from which racemic estrone methyl ether was obtained. 

We attempted the synthesis of 1,2-dihydropyridines from propargyl vinyl ethers in an independent study (11JOC2145). In our early experiments, we studied propargyl vinyl ethers 79 with additional alkyl substituents at the vinylic position. The propargyl Claisen rearrangement was effected by catalytic amounts of silver(I) hexafluoroantimonate, and the addition of an amine to the aUenylcarbonyl intermediate was expected to provide the 1,2-dihydropyridine product 80. Unfortunately, the major product was, in aU cases, the 2ff-pyran 81, and the desired dihydropyridine 80 was only formed in yields ranging from 10% to 44% when aniline derivatives were employed (Scheme 27).With aliphatic amines, the formation of 1,2-dihydropyridines was not observed. 

One of the most common side reactions is the soallyl aryl ether substrate, having alkyl substituents at a- or y- position on the allyl moiety [8]. The abnormal Claisen rearrangement was first reported by Lauer and Filbert in 1936 [9] and soon after Hund et al. also... 

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