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Tertiary Alcohol-Derived Allylic Esters

The Claisen rearrangement of bis-allyl vinyl ethers and related systems has been studied by several groups [98]. Modest to high levels of regioselectivity were obtained in the parent Claisen as well as Johnson, Eschenmoser and Ireland variants of the reaction. Parker and Farmar applied the ester enolate variant of the Ireland-Claisen rearrangement of a bis-aUylic ester to the synthesis of biflora-4,10(19),15-triene, using the rearrangement to install the 1,3-diene component for a subsequent intramolecular Diels-Alder reaction [99]. [Pg.178]

The resin of E.foliosissima contained three carboxylic acids as the major metabolites which could be isolated more conveniently as their methyl ester derivatives. The major component was the unstable acetoxy ester (111) which displayed an allylic tertiary alcohol. Transesterification of the acetate with NaOMe, followed by heating the derived hydroxy compound in a solution of CDCI3, led to the formation of the tetrahydropyran (112). This compound proved identical to the second major metabolite isolated from the methylated acidic fraction. This interrelationship was fortunate... [Pg.255]

Allylsilanes are available by treatment of allyl acetates and allyl carbonates with silyl cuprates17-18, with antarafacial stereochemistry being observed for displacement of tertiary allyl acetates19. This reaction provides a useful asymmetric synthesis of allylsilanes using esters and carbamates derived from optically active secondary alcohols antarafacial stereochemistry is observed for the esters, and suprafacial stereochemistry for the carbamates20,21. [Pg.342]

In terms of functional group compatibility, ethers, alcohols, tertiary amines, acetals, esters, amides and heterocycles are compatible with the Pauson-Khand reaction. In the intramolecular version, relatively few carbon skeletons undergo the cyclization. Most intramolecular PKRs use systems derived from hept-l-en-6-yne (6) or propargyl allyl ethers (7) or amines (8). Other interesting and more recent substrates are enynes connected through aromatic rings like 9-11, which have allowed us and other groups to obtain aromatic polycycles (Fig. 1) [28-31]. [Pg.210]

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3- allyl alcohol derivatives

5-Allyl-derivatives

Alcoholic esters

Alcohols derivatives

Alcohols tertiary allylic

Allylation esters

Allylic derivatives

Allylic derivatives allyl esters

Ester derivation

Ester derivatives

Ester, tertiary

Esters alcohols

Esters allyl

Esters allylic

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