Modeling and optimization of the bi-substrate peroxidase-enzyme catalyzed potentiometric assay of hydrogen peroxide by response surface methodology with a central composite rotatable design

详细信息    查看全文

• 作者：Farzad Deyhimi ; Faezeh Nami
• 关键词：Peroxidase ; Hydrogen peroxide ; Response surface methodology ; Potentiometry ; Fluoride ion-selective electrode
• 刊名：Journal of Molecular Catalysis B: Enzymatic
• 出版年：2011
• 出版时间：February 2011
• 年：2011
• 卷：68
• 期：2
• 页码：162-167
• 全文大小：492 K

文摘

In view of the great importance of determination of hydrogen peroxide in many chemical, biological, clinical, environmental processes, and the attractive operational simplicity of potentiometric approach for the enzymatic assay, after preliminary optimization, the efficient response surface methodology (RSM) with a central composite rotatable design (CCRD), was used for modeling and optimization of the initial-rate potentiometric method of HRP enzyme catalyzed the assay of H₂O₂. The combined “OVAT” (one-variable-a-time), full factorial and RSM analysis was able to explain the importance of the factors, their interactions, along with their optimum values (i.e. acetate buffer concentration 300 mM, 4-fluorophenol concentration = 3 mM, pH = 6.15, enzyme activity = 0.95 U/ml and T = 41 °C). The obtained results showed that the determined second-order polynomial equation explains adequately the non-linear nature of the modeled response, as confirmed by a reasonable coefficient of determination (R² = 78.3 % ). Accordingly, the ANOVA (analysis of variance) indicated, particularly, that the terms x₁ = pH and x₂² = pH * pH are highly significant (with p_value < 0.05) in this model. The performance of the optimized method including its linearity range (1–200 μM), within-day reproducibility of H₂O₂ detection in aqueous samples at 2 levels (RSD %  = 1.06 at 17 μmol l⁻¹, and RSD %  = 1.81 at 34 μmol l⁻¹, N = 10 replica), along with recovery (or matrix effect) of the method (97.71–03.84 % ) in hair bleaching real samples, were all determined. The optimized method was also successfully validated by the assay of H₂O₂ in commercial hair bleaching samples and compared to the corresponding values obtained by the reference spectrophotometric method.