35034-22-1Relevant articles and documents
FUMAGILLOL COMPOUNDS AND METHODS OF MAKING AND USING SAME
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Paragraph 00205, (2018/03/06)
Disclosed herein, in part, are fumagillol compounds and methods of use in treating medical disorders, such as obesity. Pharmaceutical compositions and methods of making fumagillol compounds are provided. The compounds are contemplated to have activity against methionyl aminopeptidase 2.
Imidazole-based pinanamine derivatives: Discovery of dual inhibitors of the wild-type and drug-resistant mutant of the influenza A virus
Dong, Jianghong,Chen, Shengwei,Li, Runfeng,Cui, Wei,Jiang, Haiming,Ling, Yixia,Yang, Zifeng,Hu, Wenhui
, p. 605 - 615 (2015/12/30)
We previously reported potent hit compound 4 inhibiting the wild-type influenza A virus A/HK/68 (H3N2) and A/M2-S31N mutant viruses A/WS/33 (H1N1), with its latter activity quite weak. To further increase its potency, a structure-activity relationship study of a series of imidazole-linked pinanamine derivatives was conducted by modifying the imidazole ring of this compound. Several compounds of this series inhibited the amantadine-sensitive virus at low micromolar concentrations. Among them, 33 was the most potent compound, which was identified as being active on an amantadine-sensitive virus through blocking of the viral M2 ion channel. Furthermore, 33 markedly inhibited the amantadine-resistant virus (IC50 = 3.4 μM) and its activity increased by almost 24-fold compared to initial compound, with its action mechanism being not M2 channel mediated.
Direct synthesis of pyrroles via a silver-promoted three-component reaction involving unusual imidazole ring opening
Zeng, Jing,Bai, Yaguang,Cai, Shuting,Ma, Jimei,Liu, Xue-Wei
supporting information; experimental part, p. 12855 - 12857 (2012/02/03)
A novel silver-promoted three-component reaction toward the synthesis of multifunctionalized pyrroles has been developed. This reaction involves an unusual imidazole ring decomposition, presumably via 1,5-isomerization and subsequent hydrolysis.