References
- Neidle , S. and Waring , M. 1994 . Molecular Aspects of Anticancer Drugs‐DNA Interactions London : MacMillan .
- Shutske , G. M. , Pierrat , F. A. , Kapples , K. J. , Cornfeldt , M. L. , Szewczak , M. R. , Hugar , F. P. , Boves , G. M. , Haroutunian , V. and Davis , K. L. 1989 . 9‐Amino‐1,2,3,4‐tetrahydroacridin‐1‐ols. Synthesis and evaluation as potential Alzheimer's disease therapeutics . J. Med. Chem. , 32 : 1805
- Kimura , M. , Okabayashi , I. and Kato , A. 1989 . Acridine derivatives. III. Preparation and antitumor activity of the novel acridinyl‐substituted uracils . Chem Pharm. Bull. , 37 : 697
- Demonchaux , P. , Laayoun , A. , Demeunynck , M. and Lhomme , J. 1989 . Synthesis of N‐acridinyl and N‐quinolinyl derivatives of radioprotective amino‐thiols . Tetrahedron , 45 : 6455
- Wilson , W. R. , Thompson , L. H. , Anderson , R. F. and Denny , W. A. 1989 . Hypoxia‐selective antitumor agents. 2. Electronic effects of 4‐substituents on the mechanisms of cytotoxicity and metabolic stability of nitracrine derivatives . J. Med. Chem. , 32 : 31
- Galy , A. M. , Galy , J.‐P. , Barbe , J. and Sharples , D. 1987 . Preparation of a series of 9 alkylaminoacridines and 9‐imino‐10 alkylacridines and their binding to desoxyribonucleic acid . Arzneim.‐Forsch (Drug Res.) , 37 : 1095
- Brayden , D. J. 2003 . Controlled release technologies for drug delivery . Drug Discovery Today , 8 : 976
- Wang , B. , Bouffier , L. , Demeunynck , M. , Mailley , P. , Roget , A. , Livache , T. and Dumy , P. 2004 . New acridone derivatives for the electrochemical DNA‐hybridization labelling . Bioelectrochemistry , 63 : 233
- Orive , G. , Gascón , A. R. , Hernández , R. M. , Domínguez‐Gil , A. and Pedraz , J. L. 2004 . Techniques: New approaches to the delivery of biopharmaceuticals . Trends in Pharmacological Sciences , 25 : 382
- Yang , X. , Shen , G. and Yu , R. Q. 2001 . A fiber optode for p‐nitrophenol based on covalently bound 9‐allylaminoacridine . Mikro. Acta , 136 : 73
- Robin , M. , Faure , R. , Périchaud , A. and Galy , J.‐P. 2000 . Synthesis of new thiazolo[5,4‐a]acridine derivatives . Heterocycles , 53 : 387
- Robin , M. , Galy , J.‐P. and Faure , R. 2001 . 1H and 13C NMR chemical shifts for tetracycle‐fused acridine analogues of amsacrine . Magn. Reson. Chem. , 39 : 225
- Avellaneda , A. , Robin , M. , Faure , R. , Périchaud , A. and Galy , J.‐P. 2002 . 1H and 13C chemical shifts for acridines. Part XVII. (1,3‐benzothiazol‐2‐yl) amino‐9‐(10H)‐acridinone derivatives . Magn. Reson. Chem. , 40 : 545
- Roubaud , G. , Faure , R. and Galy , J.‐P. 2003 . 1H and 13C chemical shifts for acridines. Part XVIII. 9‐Chloroacridine and 9‐(N‐allyl)‐ and 9‐(N‐propargyl)acridinamine derivatives . Magn.Reson. Chem. , 41 : 549
- Ullmann , F. A. 1903 . new path for preparing diphenylamine derivatives . Chem. Ber. , 36 : 2383
- Lesnianski , W. 1929 . Acridone compounds . Bull. Acad. Pol. Chem. , 81 : 120
- Denny , A. and Rewcastle , G. 1985 . The synthesis of substituted 9‐oxoacridan‐4‐carboxylic acids; Part 3. The reaction of methyl anthranilates with diphenyliodonium‐2‐carboxylates . Synthesis , 21 : 220
- Hurd , R. E. 1990 . Gradient‐enhanced spectroscopy . J. Magn. Reson. , 87 : 422
- Hurd , R. E. and John , B. K. 1991 . Gradient‐enhanced proton‐detected heteronuclear multiple‐quantum coherence spectroscopy . J. Magn. Reson. , 91 : 648
- Wilker , W. , Leibfritz , D. , Kerssebaum , R. and Bermel , W. 1993 . Gradient selection in inverse heteronuclear correlation spectroscopy . Magn. Reson. Chem. , 31 : 287
- Galy , J.‐P. , Faure , R. , Barbe , J. and Elguero . 1988 . A carbon‐13 NMR study of some 9‐aminoacridines and their cations in relation with tautomeric problems . J. Spectrosc. Lett. , 21 : 809
- Kaila , N. , Chen , L. , Thomas , B. E. , Tsao , D. , Tam , S. , Bedard , P. W. , Camphausen , R. T. , Alvarez , J. C. and Ullas , G. 2002 . β‐C‐Mannosides as selectin inhibitors . J. Med. Chem. , 45 : 1563