M.‐Lluïsa Bennasar scite author profile

Addition of the enolate derived from 2-acetylindole 1a to pyridinium salt 2 followed by in situ trapping of the initially formed 1,4-dihydropyridine 3a with Eschenmoser's salt gives tetracycle 5a. Subsequent elaboration of the exocyclic methylene and E-ethylidene substituents leads to N a-methylervitsine (17a). A similar sequence from the N a-protected 2-acetylindole 1c establishes the first total synthesis of the 2-acylindole alkaloid ervitsine. Alternatively, dihydropyridine 3a is trapped with BrSePh to give the tetracyclic selenide 7a, which is then converted to N a-methylervitsine by way of selenoxide 20. The synthesis of the alkaloids of the ervatamine group starts with the addition of the enolate derived from 2-acetyl-1-benzylindole (1g) to pyridinium salt 24 and the conversion of the resulting 1,4-dihydropyridine to 3,5-diacylated dihydropyridine 26g. Chemoselective reduction of the vinylogous amide moiety of 26g, followed by deprotection of the indole ring and LiEt3BH reduction leads to diol 37b. On sequential treatment with Eschenmoser's salt, methyl iodide, NaCNBH3, and MnO2, 37b is converted to the tetracyclic 2-acylindole 39, from which the first total synthesis of 19,20-didehydroervatamine and 20-epiervatamine is accomplished by manipulation of the 1-hydroxyethyl chain. The above syntheses can be considered as biomimetic, as cyclization of the key intermediates I and II mimics the key steps of the biosynthesis of the title alkaloids.

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A New Radical-Based Route to Calothrixin B

Bennasar

Roca

Ferrando

2006

Org. Lett.

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Sequential N-Acylamide Methylenation−Enamide Ring-Closing Metathesis: Construction of Benzo-Fused Nitrogen Heterocycles

et al. 2006

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The dimethyltitanocene methylenation of N-acylamides derived from ortho-vinylanilines, ortho-allylaniline, and ortho-vinylbenzylamine provides the corresponding enamides, which upon exposure to the second generation Grubbs ruthenium catalyst give access to indoles, 1,4-dihydroquinolines, and 1,2-dihydroisoquinolines, respectively. This sequential protocol also allows the synthesis of dihydrobenzoazepines, although the ring-closing metathesis (RCM) step is complicated by the alkene isomerization processes. From certain substrates, the direct annulation is observed in the titanium-mediated step, which is likely to occur through an olefin metathesis-intramolecular olefination sequence.

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Regioselective Intramolecular Reactions of 2-Indolylacyl Radicals with Pyridines: A Direct Synthetic Entry to Ellipticine Quinones

2005

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[reaction: see text] 2-Indolylacyl radicals generated from the corresponding selenoesters under hexabutylditin-hnu conditions undergo regioselective intramolecular reaction with unprotonated pyridines to give polycyclic indolylpyridyl ketones. For substrates bearing a (3-pyridyl)methyl moiety connected to the 3-position of the indole ring, the cyclization provides easy access to ellipticine quinones.

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