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A Method for the Late‐Stage Formation of Ketones, Acyloins, and Aldols from Alkenylstannanes: Application to the Total Synthesis of Paecilonic Acid A
Author(s) -
Sommer Heiko,
Hamilton James Y.,
Fürstner Alois
Publication year - 2017
Publication title -
angewandte chemie
Language(s) - English
Resource type - Journals
eISSN - 1521-3757
pISSN - 0044-8249
DOI - 10.1002/ange.201701391
Subject(s) - aldol reaction , enol , chemistry , bicyclic molecule , substrate (aquarium) , organic chemistry , medicinal chemistry , total synthesis , combinatorial chemistry , catalysis , oceanography , geology
Treatment of alkenylstannanes with Cu(OAc) 2 /Et 3 N affords the corresponding enol esters or ketones under conditions that proved compatible with many common functionalities; these include groups that would neither survive under the standard Tamao–Fleming conditions for the oxidation of Csp2−SiR 3 bonds nor under the conditions commonly used to oxidize C−B bonds. Chiral centers adjacent to the unveiled carbonyls are not racemized and competing protodestannation is marginal, even if the substrate carries unprotected −OH groups as internal proton sources. Therefore, the procedure is well suited for the preparation of acyloin and aldol derivatives. These enabling virtues are illustrated by a concise approach to the bicyclic lipid paecilonic acid A.
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