| Literature DB >> 26014374 |
Shinichiro Fuse1,2, Ayako Ikebe3, Kazuya Oosumi3, Tomoya Karasawa3, Keisuke Matsumura3, Miho Izumikawa4, Kohei Johmoto5, Hidehiro Uekusa5, Kazuo Shin-ya6, Takayuki Doi7, Takashi Takahashi8.
Abstract
An asymmetric total synthesis of ent-pyripyropene A was achieved by a convergent synthetic route. We used our originally developed Ti(III) -catalyzed radical cyclization to construct an AB-ring portion that consisted of a trans-decalin skeleton with five contiguous stereogenic centers. The coupling between the AB-ring and the DE-ring portions, and a subsequent C-ring cyclization, led to the total synthesis of ent-pyripyropene A. An evaluation of the insecticidal activity of ent-pyripyropene A against two aphid species revealed that ent-pyripyropene A was 35-175 times less active than naturally occurring pyripyropene A. This result indicated that the biological target of pyripyropene A recognizes the absolute configuration of pyripyropene A.Entities:
Keywords: insecticidal activity; meroterpenoids; natural products; radical reactions; titanium
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Year: 2015 PMID: 26014374 DOI: 10.1002/chem.201500703
Source DB: PubMed Journal: Chemistry ISSN: 0947-6539 Impact factor: 5.236