6884-17-9Relevant articles and documents
Biosynthesis of the indole alkaloids. Cell-free systems from Catharanthus roseus plants
Kutney,Choi,Honda,et al.
, p. 2088 - 2101 (1982)
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Unified strategy for synthesis of indole and 2-oxindole alkaloids
Martin, Stephen F.,Benage, Brigitte,Geraci, Leo S.,Hunter, James E.,Mortimore, Michael
, p. 6161 - 6171 (2007/10/02)
A concise and general entry to representative indole alkaloids of the yohimboid, heteroyohimboid, corynantheoid, and 2-oxindole classes has been developed exploiting a strategy that features intramolecular Diels-Alder reactions for the facile construction of the D/E ring subunits of the target alkaloids. The efficacy of the approach is first illustrated by a two-step total synthesis of the yohimboid alkaloid oxogambirtannine (2) from 22. Thus, the Diels-Alder substrate 25, which was prepared by nucleophilic addition of vinyl ketene acetal 24 to the intermediate N-acyliminium salt formed in situ upon reaction of 22 with 23, was heated in the presence of benzoquinone to give a mixture of diastereoisomeric cycloadducts 26 and 27; these adducts underwent spontaneous oxidation to furnish 2. In another application of the strategy, the [4+2] heterocyclization of 34a, which was formed upon nucleophilic addition of 1-[(trimethylsilyl)oxy]butadiene to the N-acyliminium salt generated in situ upon treatment of 22 with crotonyl chloride, afforded a mixture (ca. 9:1) of cycloadducts 35a and 36a. The major adduct 35a was converted to 42a using a general procedure for effecting β-carbomethoxylation of enol ethers to give vinylogous carbonates. Subsequent reduction of 42a to the heteroyohimboid alkaloids (±)-tetrahydroalstonine (3) and (±)-cathenamine (4) was achieved by selective delivery of 2 or 1 equiv of hydride, respectively. When 42a was treated with sodium amide, stereoselective β-elimination ensued to give 49, which was converted by chemoselective hydride reduction into the corynantheoid alkaloid (±)-geissoschizine (5). Facile access to alkaloids of the 2-oxindole family was realized by using a new protocol for achieving stereoselective, oxidative rearrangements of β-carboline Nb lactams into 3,3-disubstituted 2-oxindoles. Thus, exposure of 42a to tert-butyl hypochlorite followed by acid and silver ion induced rearrangement of the intermediate 3-chloroindolenine gave 50, with only traces of the C(7) epimer being detected. Hydride reduction of 50 gave (±)-isopteropodine (6), acid-catalyzed isomerization of which furnished an equilibrium mixture (1:3) of 6 and (±)-pteropodine (51). The stereochemical course of the intramolecular hetero-Diels-Alder reaction of 34a to give 35a and 36a as the only isolable cycloadducts was examined by computational analysis. The geometry of the six-atom transition state was established by semiempirical methods by using the standard closed-shell, restricted Hartree-Fock (RHF) version of the AM1 method. With use of this constrained geometry for the six-membered pericyclic array, the overall conformational energies for the four possible transition states 52-55 were minimized by MM2 calculations (MacroModel). The calculated relative energies of these transition states were in the order 52 53 54 55. Since the cyclization of 34a produced only 35a and 36a in an approximately 9:1 ratio via the respective transition states 52 and 53, these calculations correlated qualitatively with the experimental results.
Total synthesis of racemic ajmalicine and 19-epi-ajmalicine
Gutzwiller,Pizzolato,Uskokovic
, p. 1663 - 1671 (2007/10/02)
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