Microperoxidase 11(MP 11) was immobilized on the surface of a silanized glass carbon electrode by means of the covalent bond with glutaraldehyde. The measurements of cyclic voltammetry demonstrated that the formal r...Microperoxidase 11(MP 11) was immobilized on the surface of a silanized glass carbon electrode by means of the covalent bond with glutaraldehyde. The measurements of cyclic voltammetry demonstrated that the formal redox potential of immobilized MP 11 was -170 mV, which is significantly more positive than that of MP 11 in a solution or immobilized on the surface of electrodes prepared with other methods. This MP 11 modified electrode showed a good electrocatalytic activity and stability for the reduction of oxygen and hydrogen peroxide.展开更多
The interaction of MP 11 as a model of antioxidatase enzymes with La 3+ was investigated. It was found that La 3+ can increase in the non planarity of heme and the content of α helix and β turn conformat...The interaction of MP 11 as a model of antioxidatase enzymes with La 3+ was investigated. It was found that La 3+ can increase in the non planarity of heme and the content of α helix and β turn conformations of the MP 11 molecule. The change in the secondary structure of the MP 11 molecule can increase in the exposure extent of heme to the solution. Therefore, the electrochemical reaction of MP 11 is promoted and the electrocatalytic activity to the reduction of H 2O 2 is increased. The results are consistent with that for the interaction of peroxidases(POD), one of the antioxidatase enzymes, obtained in the living plant experiments at low concentration of La 3+ .展开更多
基金Supported by"973" Project(No. G2 0 0 0 0 2 6 4 0 8) the National Natural Science Foundation of China(No.2 99730 15 ) the Natural Science Foundation of Heilongjiang Province(B2 0 0 0 - 0 6 ) and the Natural Science Foundation of Eduction Comm it-
文摘Microperoxidase 11(MP 11) was immobilized on the surface of a silanized glass carbon electrode by means of the covalent bond with glutaraldehyde. The measurements of cyclic voltammetry demonstrated that the formal redox potential of immobilized MP 11 was -170 mV, which is significantly more positive than that of MP 11 in a solution or immobilized on the surface of electrodes prepared with other methods. This MP 11 modified electrode showed a good electrocatalytic activity and stability for the reduction of oxygen and hydrogen peroxide.
文摘The interaction of MP 11 as a model of antioxidatase enzymes with La 3+ was investigated. It was found that La 3+ can increase in the non planarity of heme and the content of α helix and β turn conformations of the MP 11 molecule. The change in the secondary structure of the MP 11 molecule can increase in the exposure extent of heme to the solution. Therefore, the electrochemical reaction of MP 11 is promoted and the electrocatalytic activity to the reduction of H 2O 2 is increased. The results are consistent with that for the interaction of peroxidases(POD), one of the antioxidatase enzymes, obtained in the living plant experiments at low concentration of La 3+ .