35947-93-4Relevant articles and documents
A domino annulation approach to 3,4-diacylpyrrolo[1,2-a]pyrazines: decoration of pyrazine units
Dagar, Anuradha,Kim, Ikyon,Namkung, Wan,Seo, Yohan
, p. 3324 - 3333 (2020/05/14)
A new one-pot, sequential three-component access to 3,4-diacylpyrrolo[1,2-a]pyrazine was achieved from the reaction of an α-haloketone, azide, andN-substituted pyrrole-2-carboxaldehyde under mild reaction conditions, through which a polysubstitution pattern on the pyrazine moiety of the scaffold was realized. The formation of multiple bonds (one C-C and two C-N) was enabled by this domino process involving thein situgeneration of α-iminoketones, intermolecular Mannich reaction, intramolecular imine formation, and aromatization. Construction of the relevant 3,4-diacylpyrazino[1,2-a]indole and further expansion of this chemical spaceviasynthetic elaboration of the resulting products were demonstrated as well. Preliminary biological screening of the synthesized derivatives against oral adenosquamous carcinoma cells (CAL-27) and triple negative human breast cancer cells (MDA-MB-231) led us to identify a potent hit compound (7o) having ~3 times strongerin vitroanticancer activity than that of the anticancer agent, capecitabine.
One-pot synthesis of α-bromo- and α-azidoketones from olefins by catalytic oxidation with in situ-generated modified IBX as the key reaction
Chandra, Ajeet,Parida, Keshaba Nanda,Moorthy, Jarugu Narasimha
, p. 5827 - 5832 (2017/09/09)
Simple one-pot protocols for the syntheses of α-bromoketones and α-azidoketones starting from olefins have been developed by employing catalytic oxidation of the intermediary bromohydrins with in situ-generated modified IBX as the key reaction. The improved procedure involves initial formation of bromohydrin by the reaction of olefin with NBS in acetonitrile-water mixture (1:1) at rt followed by oxidation with in situ-generated 3,4,5,6-tetramethyl-2-iodoxybenzoic acid (TetMe-IBX), produced in catalytic amounts from 3,4,5,6-tetramethyl-2-iodobenzoic and Oxone. α-Bromoketones are further converted in the same pot to the corresponding α-azidoketones using NaN3/NaHCO3. The one-pot conversions are versatile for a variety of olefins that include cyclic as well as acyclic aliphatic olefins and electron-rich and electron-deficient styrenes. Chemoselective bromohydroxylation of electron-rich double bond and subsequent oxidation to the α-bromoketone is demonstrated for a substrate that contains both electron-rich and deficient double bonds.
Synthesis and in vitro evaluation of dibenzoazepine triazole derivatives: A novel class of antileishmanial agents
Khan, Maria Aqeel,Saleem, Aliyan,Ghouri, Nida,Hameed, Abdul,Iqbal Choudhary,Basha, Fatima Z.
, p. 597 - 606 (2016/03/22)
In the present study, a series of dibenzoazepine triazole derivatives (24-39) were synthesized and evaluated for their in vitro bioactivities including antiglycation, antibacterial, DPPH radical scavenging, urease inhibition, antileishmanial and immunomod