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101.
Raghu Ram Achar B. K. Venkatesh P. Sharanappa B. S. Priya S. Nanjunda Swamy 《Applied biochemistry and biotechnology》2014,173(8):1955-1962
Vast applications of peroxidases create an increasing demand to characterize peroxidases from new sources with more applicability potential. The aim of the present study was to check the presence of peroxidase activity from Caralluma umbellata. This is the first report on the C. umbellata peroxidase (CUP). The presence of peroxidase was revealed by the histochemical analysis of the stem sections, zymographic studies, and in vitro peroxidase activity assay using various reducing substrates viz., 2, 2′-azinobis (3-ethylbenzthiazoline-6-sulfonic acid) (ABTS), guaiacol, o-dianisidine, and ferulic acid. The band pattern in zymogram confirms that CUP has a molecular weight less than that of horseradish peroxidase (44?kDa). Comparative evaluation of peroxidase activity of CUP with respect to horseradish peroxidase (HRP) indicates that CUP catalyzes ABTS and ferulic acid in a similar pattern as HRP but with guaiacol, the extent of catalysis shown by CUP over HRP is high. The standard inhibitors sodium azide and sodium meta bisulphite inhibited CUP activity in a dose dependent manner. 相似文献
102.
The kinetics of Os(VIII) catalysed oxidation of l-lysine by diperiodatoargentate(III) (DPA) in alkaline medium at T = 298 K and a constant ionic strength of 0.50 mol · dm?3 was studied spectrophotometrically. The oxidation products are aldehyde (5-aminopentanal) and Ag(I). The stoichiometry is i.e. [l-lysine]:[DPA] = 1:1. The reaction is of first order in [Os(VIII)] and [DPA] and is less than unit order in both [l-lys] and [alkali]. Addition of periodate has no effect on the reaction. Effect of added products, ionic strength, and dielectric constant of the reaction medium have been investigated. The oxidation reaction in alkaline medium has been shown to proceed via a Os(VIII)-l-lysine complex, which further reacts with one molecule of deprotonated DPA in a rate determining step followed by other fast steps to give the products. The main products were identified by spot test, IR, and GC-MS. The reaction constants involved in the different steps of the mechanism are calculated at different temperatures. The catalytic constant (KC) was also calculated at different temperatures. From the plots of lg KC versus 1/T, values of activation parameters with respect to the catalyst have been evaluated. The activation parameters with respect to slow step of the mechanism are computed and discussed and thermodynamic quantities are also determined. The active species of catalyst and oxidant have been identified. 相似文献
103.
Rajeshwari V. Hosahalli Anita P. Savanur Sharanappa T. Nandibewoor Shivamurti A. Chimatadar 《Journal of solution chemistry》2012,41(4):567-580
The reaction kinetics for the oxidation of theophylline by permanganate ions have been investigated in perchloric acid medium using spectrophotometric techniques at 25?°C, and at constant ionic strength 1.60 mol?dm?3, under pseudo first order conditions. An autocatalyzed reaction is observed due to one of the products formed is Mn(II). The orders with respect to theophylline and Mn(VII) were both found to be unity, whereas fractional order is observed with respect to the autocatalyst, Mn(II). The rate of the reaction increases as the concentration of acid increases, but the order with respect to acid concentration is less than unity. The influence of temperature on the rate of reaction was studied. Based on the experimental results a suitable mechanism is proposed. The activation and thermodynamic parameters were determined with respect to slow reaction step. 相似文献
104.
Veeresh C. Seregar Ragunatharaddi R. Hosamani Sharanappa T. Nandibewoor 《Transition Metal Chemistry》2010,35(1):55-63
The kinetics of oxidation of l-cystine by diperiodatoargentate(III) (DPA) in alkaline medium at a constant ionic strength of 0.10 mol dm−3 was studied spectrophotometrically. The reaction exhibits a 1:2 stoichiometry (l-cys:DPA) and is first order in [DPA]. The order in both [l-cystine] and [alkali] changes from first to zero order as their concentrations increase. Added periodate retards the rate
of reaction. The effects of added products have been investigated. The active species of silver(III) is identified as monoperiodatoargentate(III)
(MPA). The oxidation is thought to proceed via an MPA–l-cystine complex, which decomposes in a rate-determining step to give a free radical followed by a fast step to give the products.
The products were identified by spot test, IR and GC–MS. The reaction constants involved in different steps of the mechanism
were evaluated. The activation parameters with respect to the slow step of the mechanism were computed and discussed. 相似文献
105.
Jyothi C. Abbar Shweta J. Malode Sharanappa T. Nandibewoor 《Journal of molecular catalysis. A, Chemical》2009,313(1-2):88-99
The oxidation of dl-ornithine monohydrochloride (OMH) by diperiodatocuprate(III) (DPC) has been investigated both in the absence and presence of ruthenium(III) catalyst in aqueous alkaline medium at a constant ionic strength of 0.20 mol dm−3 spectrophotometrically. The stiochiometry was same in both the cases, i.e., [OMH]/[DPC] = 1:4. In both the catalyzed and uncatalyzed reactions, the order of the reaction with respect to [DPC] was unity while the order with respect to [OMH] was < 1 over the concentration range studied. The rate increased with an increase in [OH−] and decreased with an increase in [IO4−] in both cases. The order with respect to [Ru(III)] was unity. The reaction rates revealed that Ru(III) catalyzed reaction was about eight-fold faster than the uncatalyzed reaction. The oxidation products were identified by spectral analysis. Suitable mechanisms were proposed. The reaction constants involved in the different steps of the reaction mechanisms were calculated for both cases. The catalytic constant (KC) was also calculated for catalyzed reaction at different temperatures. The activation parameters with respect to slow step of the mechanism and also the thermodynamic quantities were determined. Kinetic experiments suggest that [Cu(H2IO6)(H2O)2] is the reactive copper(III) species and [Ru(H2O)5OH]2+ is the reactive Ru(III) species. 相似文献