Open AccessSolution- and Solid-Phase Synthesis of Natural Product-Like Tetrahydroquinoline-Based Polycyclics Having a Medium Size Ring
Author(s) -
Prabhat Arya,
Samuel CouveBonnaire,
Patricia Durieux,
Daisy Laforce,
Rohtash Kumar,
Donald M. Leek
Publication year - 2004
Publication title -
journal of combinatorial chemistry
Language(s) - English
Resource type - Journals
eISSN - 1520-4774
pISSN - 1520-4766
DOI - 10.1021/cc049935s
Subject(s) - enantiopure drug , solid phase synthesis , derivative (finance) , yield (engineering) , natural product , ring closing metathesis , ring (chemistry) , metathesis , chemistry , combinatorial chemistry , total synthesis , stereochemistry , phase (matter) , organic chemistry , materials science , enantioselective synthesis , peptide , catalysis , polymer , biochemistry , financial economics , economics , polymerization , metallurgy
A solid-phase synthesis of tetrahydroquinoline-derived polycyclic 4, having a medium size ring with an enamide functionality, was achieved from tetrahydroquinoline derivative 3 in five steps with overall 40-45% yield. An enantiopure, tetrahydroquinoline-derived beta-amino ester, 1, was converted into compound 2 that has a free phenolic hydroxyl group as an anchoring site for solid-phase synthesis. The solid-phase worked well for this sequence, in which the synthesis of the unsaturated eight-membered enamide lactam was obtained by a ring-closing metathesis approach. Compound 4 is a novel, natural product-like polycyclic derivative that could further be utilized in library generation for developing small molecule chemical probes.
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