1315477-53-2Relevant academic research and scientific papers
Copper-catalyzed tandem annulation/enol nucleophilic addition to access multisubstituted indoles
Song, Wangze,Li, Ming,He, Junnan,Li, Junhao,Dong, Kun,Zheng, Yubin
, p. 2663 - 2669 (2019/03/13)
A method to access various multisubstituted indoles from propargylic alcohols and readily available enol nucleophiles by copper-catalyzed tandem annulation/enol nucleophilic addition has been developed. Compared to the expensive metal catalysts such as platinum, gold, silver, and palladium used previously, the most economical copper(i) catalyst could achieve this reaction efficiently. The fused heterocyclic compounds, pyrrolo[1,2-a] indoles, could be afforded by further transformation of the products. The allyl cation intermediate may be involved in the mechanism.
SYNTHESIS OF CYCLOPROPYL INDOLES AND CYCLOHEPTA[B]INDOLES, PHARMECEUTICAL COMPOSITIONS CONTAINING THEM, AND METHODS AND USING THEM
-
Page/Page column 23, (2016/06/28)
Methods of making indole analogs using a rhodium-containing catalyst are described, along with methods of using the compounds to treat hyperglycemic, hyperlipidemic, or autoimmune disorders in mammals, and corresponding pharmaceutical compositions. Disclo
SYNTHESIS OF DIINDOLYLMETHANES AND INDOLO[3,2-B]CARBAZOLES, COMPOUNDS FORMED THEREBY, AND PHARMACEUTICAL COMPOSITIONS CONTAINING THEM
-
Paragraph 0084, (2016/03/05)
Described is a method to make diindolylmethanes and indolyl/pyrrolylmethanes, The method includes the steps of contacting an ether comprising an arylpropargyl moiety and an amine-protected, substituted or unsubstituted aniline moiety with a substituted or
Divergent Reactivity of Rhodium(I) Carbenes Derived from Indole Annulations
Li, Xiaoxun,Li, Hui,Song, Wangze,Tseng, Po-Sen,Liu, Lingyan,Guzei, Ilia A.,Tang, Weiping
supporting information, p. 12905 - 12908 (2015/11/02)
Rhodium(I) carbenes were generated from propargylic alcohol derivatives as the result of a dehydrative indole annulation. Depending on the choice of the electron-withdrawing group on the aniline nitrogen nucleophile, either a cyclopropanation product or dimerization product was obtained chemoselectively. Intramolecular hydroamidation occurred for the same type of propargylic alcohol derivatives when other transition-metal catalysts were employed.
Copper-catalyzed tandem annulation/arylation for the synthesis of diindolylmethanes from propargylic alcohols
Li, Hui,Li, Xiaoxun,Wang, Hao-Yuan,Winston-Mcpherson, Gabrielle N.,Geng, Hao-Miao Julie,Guzei, Ilia A.,Tang, Weiping
supporting information, p. 12293 - 12296 (2014/12/12)
Various highly substituted 2,3′-diindolylmethane heterocycles were prepared from propargylic alcohols and indole nucleophiles via a transition metal-catalyzed tandem indole annulation/arylation reaction for the first time. Among the metal catalysts we exa
1-(2′-Anilinyl)prop-2-yn-1-ol rearrangement for oxindole synthesis
Kothandaraman, Prasath,Koh, Bing Qin,Limpanuparb, Taweetham,Hirao, Hajime,Chan, Philip Wai Hong
, p. 1978 - 1985 (2013/03/14)
A synthetic method that relies on NIS (N-iodosuccinimide)-mediated cycloisomerization reactions of 1-(2′-anilinyl)prop-2-yn-1-ols to gem-3-(diiodomethyl)indolin-2-ones and 2-(iodomethylene)indolin-3-ones has been developed. The reactions were shown to be chemoselective, with secondary and tertiary alcoholic substrates exclusively giving the 3- and 2-oxindole products, respectively. In the case of the latter, the transformation features an unprecedented double 1,2-OH and 1,2-alkyl migration relay. Density functional theory (DFT) calculations based on proposed iodoaminocyclization species provide insight into this unique divergence in product selectivity. Copyright
Metal-free synthesis of 1H-indole-2-carbaldehydes by N-iodosuccinimide- mediated cyclization of 1-(2′-anilinyl)prop-2-yn-1-ols in water. A formal synthesis of (R)-calindol
Kothandaraman, Prasath,Lauw, Sherman Jun Liang,Chan, Philip Wai Hong
, p. 7471 - 7480 (2013/08/23)
A N-iodosuccinimide (NIS)-mediated method to prepare 1H-indole-2- carbaldehydes efficiently from cycloisomerization of 1-(2-aminophenyl)prop-2-yn- 1-ols is described. The reaction is operationally straightforward and accomplished in good to excellent yiel
Silver acetate catalyzed hydroamination of 1-(2-(sulfonylamino)phenyl)prop- 2-yn-1-ols to (Z)-2-methylene-1-sulfonylindolin-3-ols
Susanti, Dewi,Koh, Fujiet,Kusuma, Jeffrey Antonius,Kothandaraman, Prasath,Chan, Philip Wai Hong
, p. 7166 - 7175 (2012/10/29)
A method to prepare (Z)-2-methylene-1-sulfonylindolin-3-ols efficiently that relies on silver acetate catalyzed hydroamination of 1-(2-(sulfonylamino) phenyl)prop-2-yn-1-ols is reported. The reactions proceed rapidly at room temperature with catalyst loadings as low as 1 mol % under conditions that did not require the exclusion of air or moisture. The utility of this N-heterocyclic ring-forming strategy as a synthetic tool that makes use of unsaturated alcohols was exemplified by the conversion of the (Z)-2-methylene-1- sulfonylindolin-3-ol to examples of other members of the indole family of compounds.
Gold-catalyzed cycloisomerizations of 1-(2-(Tosylamino)phenyl)prop-2-yn-1- ols to 1H-Indole-2-carbaldehydes and (E)-2-(Iodomethylene)Indolin-3-ols
Kothandaraman, Prasath,Mothe, Srinivasa Reddy,Toh, Sharon Si Min,Chan, Philip Wai Hong
, p. 7633 - 7640 (2011/11/12)
A method to prepare lH-indole-2-carbaldehydes and (E)-2-(iodomethylene) indolin-3-ols by gold(I)-catalyzed cycloisomerization of l-(2-(tosylamino) phenyl)prop-2-yn-1-ols with N-iodosuccinimide (NIS) is reported. The reactions were shown to be operationally simplistic and proceed efficiently for a wide variety of substrates, affording the corresponding products in good to excellent yields (70-99%). The mechanism is suggested to involve activation of the alkyne moiety of the substrate by the gold(I) catalyst. This triggers intramolecular addition of the tethered aniline moiety to give a vinyl gold intermediate, which undergoes iododeauration with NIS to give the (E)-2-(iodomethylene)indolin-3-ol adduct. Subsequent 1,3-allylic alcohol isomerization (1,3-AAI) followed by formylation of this vinyl iodide intermediate then gives the 1H-indole-2-carbaldehyde.
