Your search keyword '"4-aminopyridines"' showing total 3 results

1. Synthesis and Complexation of Monotosylated 4-Aminopyridine with Nickel (II) and Iron (II) Ions.

Author

Orie, Kingsley John, Duru, Remy Ukachukwu, and Ngochindo, Raphael I-oro

Subjects

*PROTON magnetic resonance, *NUCLEAR magnetic resonance, *OPTICAL spectroscopy, *CHEMICAL industry, *ULTRAVIOLET spectroscopy

Abstract

Tosylated 4-aminopyridine and other sulfonylated compounds of amines comprise a substantial class of pharmaceutical drugs used as antibiotics in the field of medicine. This research aimed at the synthesis of tosylated 4-aminopyridine and the complexation of the tosyated 4-aminopyridine with Ni(II) and Fe(II) ions. The sulfonamide was prepared by the action of tosyl chloride on 4-aminopyridine in an aqueous alkaline medium. The complexes were synthesized by the reaction of Ni(NO3)2.6H2O/Fe(NO3)2.6H2O with sulfonamide derivative. These compounds were characterized through Ultraviolet Visible spectroscopy (UV-Vis), Fourier Transform Infer-Red (FTIR) spectroscopy, Proton Nuclear Magnetic Resonance (1HNMR), Carbon-13 Nuclear Magnetic Resonance (13CNMR) and Electron Spray Ionisation-Mass Spectrometer (ESIMS) and micro-analysis. The IR spectral data suggested that the sulfonamide derivative acts as a neutral ligand towards Ni (II) and Fe (II). In their complexes, the coordination frequency bands of 1665.55 and 1674.21 cm-1 were assigned to Ni-N and Fe-N bonds, and 1687.70 cm-1 was assigned to free tosylated 4-aminopyridine. This decrease in the frequency band of free imine to coordinated imine complexes indicates that electron transfer occurred from the ligand to the d-orbitals of the metals. The complexation of4-Methyl-N-(pyridin-4-yl)benzene sulfonamide can increase the biological and catalytic potential of the ligand in the pharmaceutical and chemical industries. [ABSTRACT FROM AUTHOR]

Published

2021

2. Three-Component Reaction of 2-Oxoaldehydes, Cyclic 1,3-Dicarbonyl Compounds, and 4-Aminopyridines.

Author

Huiping Wei, Binbin Li, Wang, Gaigai, Van Hecke, Kristof, Pereshivko, Olga P., and Peshkov, Vsevolod A.

Subjects

*AMINOPYRIDINES, *PYRIDINE synthesis, *HETEROCYCLIC compounds synthesis, *ZWITTERIONS, *CHEMICAL reactions

Abstract

A novel three-component reaction of 2-oxoaldehydes, cyclic 1,3-dicarbonyl compounds, and 4-aminopyridines leading to the formation of zwitterionic Michael adducts is described. [ABSTRACT FROM AUTHOR]

Published

2016

3. Efficient Electrochemical N-Alkylation of N-Boc-Protected 4-Aminopyridines: Towards New Biologically Active Compounds

Author

Feroci, Marta, Chiarotto, Isabella, Forte, Gianpiero, Simonetti, Giovanna, D'Auria, Felicia Diodata, Diodata, Maes, Louis, Scipione, Luigi, Friggeri, Laura, DI SANTO, Roberto, DE VITA, Daniela, and Tortorella, Silvano

Subjects

chemistry.chemical_classification, 4-aminopyridines, Article Subject, Chemistry, medicine.drug_class, antiprotozoal activity, antifungal activity, Halide, Biological activity, Alkylation, electrochemical N-alkylation, Medicinal chemistry, Antiprotozoal, medicine, Reactivity (chemistry), Human medicine, Counterion, Biology, Alkyl, Aminopyridines, Research Article

Abstract

The use of electrogenerated acetonitrile anion allows the alkylation of N-Boc-4-aminopyridine in very high yields, under mild conditions and without by-products. The high reactivity of this base is due to its large tetraethylammonium counterion, which leaves the acetonitrile anion “naked.” The deprotection of the obtained compounds led to high yields in N-alkylated 4-aminopyridines. Nonsymmetrically dialkylated 4-aminopyridines were obtained by subsequent reaction of monoalkylated ones with t-BuOK and alkyl halides, while symmetrically dialkylated 4-aminopyridines were obtained by direct reaction of 4-aminopyridine with an excess of t-BuOK and alkyl halides. Some mono- and dialkyl-4-aminopyridines were selected to evaluate antifungal and antiprotozoal activity; the dialkylated 4-aminopyridines 3ac, 3ae and 3ff showed antifungal towards Cryptococcus neoformans; whereas 3cc, 3ee and 3ff showed antiprotozoal activity towards Leishmania infantum and Plasmodium falciparum.

Published

2014