Acridines Research Articles

An ‘I’ for an ‘N’ to Obtain Acridines and Carbazoles

An ‘I’ for an ‘N’ to Obtain Acridines and Carbazoles

Rhodium Cascade Leads to Functionally Rich Acridines and Phenazines

Rhodium Cascade Leads to Functionally Rich Acridines and Phenazines

ChemInform Abstract: Pericyclic Rearrangements of N‐Heterocyclic Carbenes of Indazole to Substituted 9‐Aminoacridines.

AbstractA novel synthesis of new acridines via rearrangement of in situ generated indazol‐3‐ylidenes is developed.

Synthesis of C9-Functionalized Xanthenes and Acridines

Synthesis of C9-Functionalized Xanthenes and Acridines

Synthesis of New Friedländer Synthon and Its Application towards the Construction of Pyrido[3,2-c]acridines

A new Friedlander synthon, 4-aminoacridine-3-carbaldehyde was prepared in 4 steps from 3-methylacridine in 38% overall yield, which was readily condensed with acetylaromatics to yield 2-arylpyrido[3,2-c]-acridines.

The preparation of some tetradecyl-substituted benzocarbazoles and benzacridines

The preparation are described of 10-dodecyl- and 10-tetradecylbenzo[a]acridines, 9-tetradecylbenzo[c]acridine, and some 8-tetradecylbenzo[a]carbazoles and 10-tetradecylbenzo[c]carbazoles

ChemInform Abstract: The Synthesis of Some Sterically Hindered Acridines and a High‐Pressure Methylation.

Abstract4‐Phenylacridine (III) is prepared from its 9‐chloro derivative (I).

Relationship of carcinogenicity, mutagenicity, and K-region reactivity in benz[c]acridines.

Benz[c]acridine and its 10 methyl-substituted derivatives were examined for chemical reactivity with osmium tetroxide and mutagenic activity on Salmonella typhimurium, and the results were contrasted with the electronic charge in the K region and the carcinogenic activity of benz[c]acridines. The addition of osmium tetroxide took place at the K region of benz[c]acridines. A linear relationship was established between the charge in the K region and the rate constant of the second-order reaction between osmium tetroxide and benz[c]acridines except the 5,7-dimethyl derivative whose substituent in the 5-position sterically hindered the reaction. Benz[c]acridines showed mutagenic activity in the presence of S-9 Mix, but not in the absence of S-9 Mix. There was a corresponding relationship among the K-region reactivity, mutagenic activity, and carcinogenic activity in benz[c]acridines. The only exception for this was the 7,11-dimethyl derivative in which the 11-methyl group had a steric effect on the ring-nitrogen atom. It was suggested that a common mechanism with regard to the reactivity of the K region is working in both carcinogenesis and mutagenesis. It was concluded that benz[c]acridines are activated, before they display a carcinogenic or mutagenic activity, to a proximate form such as 5,6-epoxides, through a metabolic process in which the nucleophilic property of the K region to react with electrophilic reagents plays an important role.

Synthesis and investigation of 9-[p-bis-(β-chloroethyl)aminophenyl]acridines and their N-oxides

Synthesis and investigation of 9-[p-bis-(β-chloroethyl)aminophenyl]acridines and their N-oxides

Luminescence and absorption of 9-(pyrimidyl-2?-methyl)acridines

Luminescence and absorption of 9-(pyrimidyl-2?-methyl)acridines

Synthesis of some N- and C-derivatives of hydrogenated acridines

Synthesis of some N- and C-derivatives of hydrogenated acridines

Polyazabenzo[a]pyrenes

12-Acylaminobenz[a]acridines have been cyclised to 6,11-diazabenzo[a]pyrenes. β-Naphthyl-α-aminonicotinic acids afforded 12-hydroxy-7,10-diazabenz[a]anthracenes which as their 1-acetyl or 1-carboxy-derivatives, or as the lactone formed from the latter hydroxy-acid, yielded 6,9,11-triazabenzo[a]pyrenes when heated in urea.

Heterocyclic Compounds: The Acridines . Their Preparation, Physical, Chemical, and Biological Properties and Uses. Adrien Albert. St. Martin's Press, New York, 2nd ed., 1966. 616 pp., illus. $32.50.

Heterocyclic Compounds: <i>The Acridines</i> . Their Preparation, Physical, Chemical, and Biological Properties and Uses. Adrien Albert. St. Martin's Press, New York, 2nd ed., 1966. 616 pp., illus. $32.50.

Interactions of methylated acridines with DNA

Interactions of methylated acridines with DNA

Bacteriostasis and Mutagenesis by Acridines

Bacteriostasis and Mutagenesis by Acridines

Visualization and characterization of fluorescent progenies derived from poliovirus-RNA and acridines

Visualization and characterization of fluorescent progenies derived from poliovirus-RNA and acridines

Lysis of Bacillus subtilis by amines, acridines, and phenothiazines

Lysis of Bacillus subtilis by amines, acridines, and phenothiazines

The Condensed Polynuclear Perhydro-Com pounds Containing Nitrogen. VII. Dehydrogenation of Hydrogenated Acridines with Palladium.

The Condensed Polynuclear Perhydro-Com pounds Containing Nitrogen. VII. Dehydrogenation of Hydrogenated Acridines with Palladium.

The mechanism of the biochemical activity of acridines

Les acridines forment avec les nucleoproteides des levures, des complexes electro-adsorptifs. Le pouvoir bactericide des acridines s'exerce par une competition entre les ion H+ de ce complexe et l'ion acridine. Differents enzymes actives par des ions metalliques doivent leur activite catalytique au meme type de complexes. Les acridines inhibent ces enzymes parce qu'ils deplacent le cathion metallique.

Acridines and streptomycine

La streptomycine et les acridines ont une propriété commune, en ce qu'ils forment avec les nucléoprotéides des levures de complexes électro-adsorptifs.