54995-53-8Relevant articles and documents
Design, synthesis and in vitro evaluation of 6-amide-2-aryl benzoxazole/benzimidazole derivatives against tumor cells by inhibiting VEGFR-2 kinase
Yuan, Xu,Yang, Qingyi,Liu, Tongyan,Li, Ke,Liu, Yuwen,Zhu, Changcheng,Zhang, Zhiyun,Li, Linghua,Zhang, Conghai,Xie, Mingjin,Lin, Jun,Zhang, Jihong,Jin, Yi
, p. 147 - 165 (2019/06/27)
Herein, we have carried out a structural optimization campaign to discover the novel anti-tumor agents with our previously screened YQY-26 as the hit compound. A library of thirty-seven 6-amide-2-aryl benzoxazole/benzimidazole derivatives has been designe
Synthesis, molecular docking and antimicrobial evaluation of novel benzoxazole derivatives
Ertan-Bolelli, Tugba,Yildiz, Ilkay,Ozgen-Ozgacar, Selda
, p. 553 - 567 (2016/03/08)
In this research, previously and newly synthesized 5-amino-2-(4-substitutedphenyl/benzyl)benzoxazoles (3a-3l) and 2-substituted-5-(4-nitro/aminophenylsulfonamido)benzoxazoles (5a-5l, 6a-6l) were evaluated for their antimicrobial activities against Pseudom
Metallomesogens derived from benzoxazoles-salicylaldimine conjugates
Chen, Chun-Jung,Wang, I-Wen,Sheu, Hwo-Shuenn,Lee, Gene-Hsiang,Lai, Chung K.
, p. 8120 - 8130 (2011/10/31)
The synthesis, characterization, and mesomorphic properties of a new series of Schiff bases 2a-h and metal complexes 1a-h-M are prepared and their mesomorphic properties studied. Two single crystallographic structures of 2d (n=12, m=1) and 1g-Pd (n=m=12) were determined by X-ray analysis. Both compounds crystallize in a triclinic space group P-1. A dimeric structure formed by intermolecular H-bonds in 2d was observed, giving nematic phase due to a better aspect ratio. The central geometry at Pd2+ ion is nearly perfect square plane. All Schiff bases 2a-h formed N or/and SmC phases. The formation of mesophases of complexes 1a-h-M was strongly dependent on metal ions incorporated. All Cu2+, Ni2+ and Pd2+ complexes exhibited N or/and SmC phase, respectively. However, Zn2+ and Co2+ complexes were not mesogenic. The lack of mesomorphism was probably attributed to a preferred tetrahedral geometry at Zn2+ and Co2+ over a square-planar geometry at Cu2+ and Pd 2+.