Yohann Benchabane scite author profile

Electrospray ionization (ESI) tandem mass spectrometry (MS/MS) has been used to differentiate two positional isomers of acridine derivatives, N-acridin-4-ylbenzylamide and N-acridin-2-ylbenzylamide. The study revealed that the isomeric ion structures produced by these heterocycles could be distinguished upon collision-induced dissociations (CID). In particular, the loss of a water molecule was shown to be a regiospecific reaction of the protonated N-acridin-4-ylbenzylamide, in which the location of the benzylamide substituent with respect to the acridinic nitrogen greatly assists proton migration by allowing the creation of intramolecular hydrogen bonds. To a lesser extent, the two isomers could also be distinguished by the difference in the abundance of the benzoyl cation in the MS/MS spectra of the [M+H]+ ions, as this ion is produced with a much higher rate from N-acridin-4-ylbenzylamide. Calculations based on quantum-mechanical models have been performed to evaluate the stability of the ion structures and to support mechanisms proposed for these two dissociation reactions.

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Evaluation of the mutagenic/clastogenic potential of 3,6-di-substituted acridines targeted for anticancer chemotherapy

Giorgio

Benchabane

Boyer

et al. 2011

Food and Chemical Toxicology

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Yohann Benchabane

Photo-inducible cytotoxic and clastogenic activities of 3,6-di-substituted acridines obtained by acylation of proflavine

A theoretical and NMR experimental study of N1,N3-di(3-aminoacridin-6-yl)-isophthalamide and N2,N6-di(3-aminoacridin-6-yl)-2,6-dicarboxamide

Differentiation of heterocyclic regioisomers: a combined tandem mass spectrometry and computational study of N‐acridin‐4‐ylbenzylamide and N‐acridin‐2‐yl‐benzylamide

Evaluation of the mutagenic/clastogenic potential of 3,6-di-substituted acridines targeted for anticancer chemotherapy

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