ascorbic-acid and ferrous-oxide

ascorbic-acid has been researched along with ferrous-oxide* in 2 studies

Other Studies

2 other study(ies) available for ascorbic-acid and ferrous-oxide

Article	Year
Electrospun γ-Fe Analytica chimica acta, 2018, Oct-05, Volume: 1026 Nanofibers of α-Fe Topics: Ascorbic Acid; Biosensing Techniques; Dopamine; Electrochemical Techniques; Ferrous Compounds; Nanofibers; Particle Size; Surface Properties; Uric Acid	2018
[A new look at the mechanism of action of antibiotics of the tetracycline series. Tetracyclines as components of radical-generating systems]. Antibiotiki i khimioterapiia = Antibiotics and chemoterapy [sic], 1994, Volume: 39, Issue:7 Tetracyclines were shown to be able to form radical-generating systems and to affect biological structures at the account of the radical form generation. The radical-generating systems were found to be based on the phenomenon revealed in this study that the tetracyclines catalyzed oxidation of ferrous oxide by oxygen after its binding by these compounds. In the presence of ascorbate the radical formation with the involvement of oxygen could be continuous and accompanied by reduction of ferrous oxide by ascorbate in complex with tetracyclines and its subsequent oxidation as well induced by them. Ca2+ and Mg2+ forming complexes with tetracyclines had no impact on the radical formation. In complex with tetracyclines the ions did not interfere with the tetracycline ability to catalyze oxidation of ferrous oxide after its binding by these compounds. A notion of two functional centres characteristic of tetracyclines was formulated. One of them (chelating) provided the tetracycline binding to Mg2+ and Ca2+ e.g. in ribosomes and the other (toxic) affected the surrounding biological structures by the radical formation. Topics: Ascorbic Acid; Calcium; Catalysis; Ferrous Compounds; Free Radicals; Magnesium; Oxidation-Reduction; Spectrophotometry; Tetracycline Resistance; Tetracyclines	1994

Article

Year

Analytica chimica acta, 2018, Oct-05, Volume: 1026

Nanofibers of α-Fe

Topics: Ascorbic Acid; Biosensing Techniques; Dopamine; Electrochemical Techniques; Ferrous Compounds; Nanofibers; Particle Size; Surface Properties; Uric Acid

2018

[A new look at the mechanism of action of antibiotics of the tetracycline series. Tetracyclines as components of radical-generating systems].

Antibiotiki i khimioterapiia = Antibiotics and chemoterapy [sic], 1994, Volume: 39, Issue:7

Tetracyclines were shown to be able to form radical-generating systems and to affect biological structures at the account of the radical form generation. The radical-generating systems were found to be based on the phenomenon revealed in this study that the tetracyclines catalyzed oxidation of ferrous oxide by oxygen after its binding by these compounds. In the presence of ascorbate the radical formation with the involvement of oxygen could be continuous and accompanied by reduction of ferrous oxide by ascorbate in complex with tetracyclines and its subsequent oxidation as well induced by them. Ca2+ and Mg2+ forming complexes with tetracyclines had no impact on the radical formation. In complex with tetracyclines the ions did not interfere with the tetracycline ability to catalyze oxidation of ferrous oxide after its binding by these compounds. A notion of two functional centres characteristic of tetracyclines was formulated. One of them (chelating) provided the tetracycline binding to Mg2+ and Ca2+ e.g. in ribosomes and the other (toxic) affected the surrounding biological structures by the radical formation.

Topics: Ascorbic Acid; Calcium; Catalysis; Ferrous Compounds; Free Radicals; Magnesium; Oxidation-Reduction; Spectrophotometry; Tetracycline Resistance; Tetracyclines

1994