Indole addition reaction

The enantioselective, copper (II) phosphate (340) catalysed cycloisomerisation-indole addition reaction of 2-(l-alkynyl)-2-alkene-l-ones (337) and... 

Indole, 4,5,6,7-tetrahydro-4,7-dioxo-structure, 4, 303 Indole, tetrahydro-3-methyl-synthesis, 4, 109 Indole, 2-(2-thienyl)-nitration, 4, 211 Indole, 3-thio-synthesis, 4, 368 Indole, 2-thioalkyl-synthesis, 4, 152 Indole, 3-thiocyano-synthesis, 4, 368 Indole, 1-tosyloxy-rearrangement, 4, 302 Indole, 1,2,3-trialkyl-Mannich reactions, 4, 228 Indole, 3-(tricyanovinyl)-nucleophilic addition reactions, 4, 281 reactions... 

Asides from the application of imines on conjugate addition reactions, Deng [87, 88] reported the first asymmetric chiral thiourea catalyzed Friedel-Crafts reaction of indoles with iV-tosyl imines (Scheme 35). The reaction was receptive to various aromatic, heteroaromatic, and aliphatic imines in good yield and high enantioselec-tivity (Scheme 36). 

Care must also be taken when choosing the reaction partners within reactions. Nucleophiles that have been reported to be effective in conjugate addition processes can also undergo 1,2-addition reactions and these possibilities must be addressed in reaction design. For example, aldehydes and ketones have been shown to undergo a bis-indole alkylation sequence in the presence of achiral amine 139 (42-84% yield 1-10 mol% catalyst) [189]. This additional reactivity was exploited in the... 

In organic solvents the acidity functions H corresponding to hydrogen dissociation from neutral indicator acids were reported for solutions of alkali metal alkoxides in various alcohols (2), using nitroanilines (21), aminobenzenecarboxylic acids (22), or indols (23) as indicators. For addition reactions of methoxide and ethoxide ions to neutral indicator acids, acidity functions J (also denoted as Hr) based on use of nitrobenzenes (21) and a-cyanostilbenes (18) as indicators in methanol and dimethylsulfoxide-methanol and -ethanol mixtures were reported. Recently (24) the acidity function J- (denoted as Jm) was derived for methoxide ion solutions in methanol using substituted benzaldehydes as indicators. These scales involve arbitrary choice of water as the solvent for determination of the dissociation constant of the anchoring acid. 

Analogous [ 4 + 2] cycloaddition reactions of DMAD with indoles would disrupt the aromatic character of the fused benzene ring. It is not unexpected, therefore, that indole reacts with two molecules of DMAD to give the dihydrocarbazole derivative (234), via an initial Michael addition reaction, followed by cycloaddition of DMAD to the vinylindole. Aromatization of the 1 2 adduct (234) normally yields the carbazoletetracarboxylic ester... 

Michael addition reaction at the 5-position <8lUP30500). The dihydroindoles are readily dehydrogenated with DDQ to give the indoles, but the 4,5,6,7-tetrahydroindoles have resisted all attempts to convert them into the fully aromatic systems (81JOC4515, cf. 81ACS(B)77>. 

Indole, l-methyl-2-sulfonamido-tautomerism, 4, 200 Indole, l-methyl-3-sulfonamido-tautomerism, 4, 200 Indole, (methylthio)-synthesis, 4, 368 Indole, 3-(methylthio)-synthesis, 4, 338, 368 Indole, l-methyl-3-vinyl-oxidation, 4, 280 Indole, nitro-rearrangement, 4, 297 Indole, 3-nitro-nitration, 4, 211, 213 reduction, 4, 362 synthesis, 4, 210, 363 Indole, 5-nitro-synthesis, 4, 211, 363 Indole, nitroso-rearrangement, 4, 297 Indole, 1-nitroso-reduction, 4, 362 Indole, 3-nitroso-reduction, 4, 362 Indole, nitrovinyl-cycloaddition reactions, 4, 284 Indole, 3-(2-nitrovinyl)-nucleophilic addition reactions, 4, 281 Indole, perhydro-structure, 4, 196 Indole, 2-phenyl-metabolism, 1, 228 3-substituted ipso substitution, 4, 212 synthesis, 4, 126 Indole, 3-phenyl-... 

N-Methyl- and N-phenyl-2-vinylpyrroles 20a,b react with DMAD at reflux temperature in chloroform to give, in moderate yields, the dihydroindoles 22 via a 1,3-H shift from the Diels-Alder intermediate 21 (55-75%) (80JOC4515). These adducts were readily converted into the corresponding indoles 23 with Dichlorodicyanoquinone (DDQ). 2-Vinyl-pyrrole failed to give [4 + 2]-cycloadducts with acetylenic esters (80JOC4515). Spectroscopic analysis of the product mixtures indicated the presence of polymeric compounds resulting from Michael addition reactions. 

Dinitrobenzofuroxan (DNBF) is known as a superelectrophile due to its high reactivity both as an electrophile and in its pericyclic addition reactions. NMR studies show that reaction with 2-aminothiazole and its 4-methyl derivative yield anionic carbon-bonded adducts such as (11) by reaction at the 5-position, whereas the 4,5-dimethyl derivative reacts via the exocyclic amino group. Kinetic studies of the first two compounds, both in acetonitrile and in 70 30 (v/v) water-DMSO, have been used to assess their carbon nucleophilicities and place them on the Mayr nucleophilicity scale.55 In a related study, the nucleophilic reactivity, in acetonitrile, of a series of indoles with both DNBF and with benzhydryl cations have been compared and used to determine nucleophilicity parameters for the indoles.56... 

Aluminum salen complexes have been identified as effective catalysts for asymmetric conjugate addition reactions of indoles [113-115]. The chiral Al(salen)Cl complex 128, which is commercially available, in the presence of additives such as aniline, pyridine and 2,6-lutidine, effectively catalyzed the enantioselective Michael-type addition of indoles to ( )-arylcrolyl ketones [115]. Interestingly, this catalyst system was used for the stereoselective Michael addition of indoles to aromatic nitroolefins in moderate enantiose-lectivity (Scheme 36). The Michael addition product 130 was easily reduced to the optically active tryptamine 131 with lithium aluminum hydride and without racemization during the process. This process provides a valuable protocol for the production of potential biologically active, enantiomerically enriched tryptamine precursors [116]. 

Like pyrrole, indole readily undergoes the Mannich reaction affording the aminomethyl derivative 7.26. A variety of nucleophiles can displace the amine via an elimination followed by a 1,4-addition reaction, as in the preparation of acetate 7.27. 

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