A series of phosphorylated aromatic/heterocyclic sulfonamides with the general formula ArSO2NHPO3H2 have been prepared by condensing ArSO2NH2 with phosphorus pentachloride, followed by controlled hydrolysis in the presence of formic acid. The new derivatives generally act as stronger inhibitors of two carbonic anhydrase (CA) isozymes, CA I and CA II, as compared to the parent unsubstituted sulfonamides from which they were obtained. The inhibition mechanism by this new class of CA inhibitors, as well as structure activity correlations for the series of investigated derivatives, are also discussed.
This work discusses the synthesis and the fragmentation patterns for 2-(p-acetylaminosulfonamido)-2-thiono-(5,5-dimethyl-1,3,2-dioxaphosphorinane)(1) and for the p-acetylaminosulfonylamides of O,O-diethylthiophosphoric acid (2), O,O-diphenylthiophosphoric acid (3), dimethylaminocyclohexylthiophosphoric acid (4), and diethylaminophenylthiophosphoric acid (5). A thionamidic-thiolimidic structure was attributed to compounds 1-5, consistent with their IR and NMR spectra. EI mass spectra at 70 eV, high resolution (HR) mass measurements and metastable ion spectra were used to elucidate the fragmentation processes and to determine the kinetic energy release values associated with the metastable ion dissociations. HR accurate mass measurements were used to confirm the compositions of the more abundant ions.
This paper presents the interpretation of the mass spectra of some N', N'-dimethylamido-cyclohexylthio phosphonic derivatives of the corresponding p-R substituted N-methyl arylsulphonamides, under electron impact. Normal mass spectra at 70 eV, metastable transition detection and accurate mass measurements were used to elucidate the ion fragmentation pathways.
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