1 Cain B F,Atwell G J,Seelye R N,Potential antitumor agents,11.9-anilinoacridines.J.Med.Chem,1971,14(4):311~315
2 Osuna A,Rodriguez-Santiago J I,Ruiz P L M,et al.Antiamebic activity of new acridine derivatives against naegieria and acant hamoeba species in vitro.Chemotherapy,1987,33(1):18~21
3 Sharples D,Barbe J,Galy A M,et al.New anticamebic acridinesⅡ.synthesis and DNA binding of a series of 9-acridanones and 9-minoacridines.Chemotherapy,1987,33(5):347~354
4 Chen W S,George H C,Chester J C,et al.Potent reversible anticholinesterase agents,bis-and mono-N-substituted benx oquinolinium halides.J.Med.Chem.,1977,20(12):1617~1623
5 Powell M F,Bruice T C,Effect of isotope scrambling and tunneling on the kinetic and productisotope effect for reduced nicotin amide adenine dinucleotide model hydride transferreaction.J.Am.Chem.Soc.,1983,105:7139~7149
6 Jean J C,Anne M G,Jean P G,et al.Preparation of some new N-substituted 9,10-dihydroacridine derivatives. J.Chem.Eng.Data,1989,34:136~137
7 Aub-Eittah R H,Hilal R H,El-Shall M S,Electron-donating properties of some N-arylpyrroles I,charge-transfer complexes.Gazzette Chimia Italiana,1985,115:487~491
8 Kamiya M,Akahori Y,The electronic spectrum and spacial configuration of phenothiaine,Chem.Pharm.Bull.,1972,20(1):117~121
9 Aloisi G G,Pignataro S,Molecular complexes of substituted thiophens with and acceptors,J.Chem.Soc. Faraday Trans.I,1973,69:534~539 |