Mechanisms of steroid oxidation by microorganisms III. Enzymatic mechanism of ring a aromatization

## Abstract Oxidation of aromatic amines (substrate) by peroxomonosulphate (PMS) in phthalate buffers at various temperatures revealed first‐order dependence on [PMS] as well as [Substrate]. Rate of oxidation was found to increase with an increase in pH as well as dielectric constant (D) of the med

## Abstract The kinetics of Ruthenium (III) catalysed oxidation of L‐Valine by alkaline solution of hexacyanoferrate (III) were studied by following the rate of disappearance of Fe(CN)^3‐^. The reaction shows zero order dependence on hexacyanoferrate (III). First order on ruthenium (III). The first

Diperiodatoargentate(III) oxidizes nitrilotriacetic acid in a mildly basic medium to produce formaldehyde and ammonia. This reaction follows a complex kinetic behaviour. The axial binding of NTA to silver(III) complex takes place on the millisecond time-scale with a second-order rate constant of (4.

The kinetics of the reaction between glycolaldehyde (GA) and tetrachloroaurate(III) in acetic acid-sodium acetate buffer has been studied. The reaction is first-order with respect to as well as [GA]. Both and ions retard the rate of reaction. III ϩ Ϫ Ϫ [Au ] H Cl AuCl , 4 and are the reactive specie

## Abstract The oxidation of halotoluenes by hexacyanoferrate(III) in aqueous acetic acid containing perchloric acid (0.5__M__) at 50°C gave the corresponding aldehyde as the major product, and a small amount of polymeric material. The order with respect to each of the reactants—substrate, oxidant,

Cysteine was used as a model reductant to gain further insight into the kinetics of bacterially mediated iron reduction. Our experimental data and modeling results indicated that the reductive dissolution of hydrous ferric oxide (HFO) takes place via surface complex formation of cysteine and corresp