30951-66-7Relevant articles and documents
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Stoldt,Turk
, p. 2370 (1969)
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Discovery of selective HDAC/BRD4 dual inhibitors as epigenetic probes
Chen, Jingjing,Li, Yalei,Zhang, Jie,Zhang, Minmin,Wei, Aihuan,Liu, Hongchun,Xie, Zhicheng,Ren, Wenming,Duan, Wenwen,Zhang, Zhuo,Shen, Aijun,Hu, Youhong
supporting information, (2020/10/20)
According to the binding mode of ABBV-744 with bromodomains and the cape space of HDAC, the novel selective HDAC/BRD4 dual inhibitors were designed and synthesized by the pharmacophore fusion strategy. Evaluating the biomolecular activities through SARs exploration identified three kinds of selective dual inhibitors 41c (HDAC1/BRD4), 43a (pan-HDAC/BRD4) and 43d (HDAC6/BRD4(BD2)), whose target-related cellular activities in MV-4-11 cells were also confirmed. Significantly, the selective dual inhibitor 41c (HDAC1/BRD4) exhibited synergistic effects against MV-4-11 cells, which strongly induced G0/G1 cell cycle arrest and apoptosis, and the first HDAC6/BRD4(BD2) dual inhibitor was found. This study provides support for selective HDAC/BRD4 dual inhibitors as epigenetic probes based on pyrrolopyridone core for the future biological evaluation in different cancer cell lines.
Synthesis of 4H-1,3-Benzoxazines via Metal- and Oxidizing Reagent-Free Aromatic C-H Oxygenation
Xu, Fan,Qian, Xiang-Yang,Li, Yan-Jie,Xu, Hai-Chao
supporting information, p. 6332 - 6335 (2017/12/08)
An unprecedented electrochemical aromatic C-H oxygenation reaction for the synthesis of 4H-1,3-benzoxazines from easily available N-benzylamides is reported. These oxidative cyclization reactions proceed in a transition metal- and oxidizing reagent-free fashion and produce H2 as only theoretical byproduct. Adapting the C-H oxygenation reaction in an electrochemical microreactor has been demonstrated.