有机磷化合物的磷酸酶水解

I. Tazisong, Z. Senwo, Zhongqi He
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引用次数: 20

摘要

磷酸酶是一种多样的酶,在有机磷矿化到无机有效形态(Pi)的过程中起着重要作用,值得特别关注。本研究1)比较了小麦胚芽、甘薯、马铃薯中产的酸性磷酸酶和大肠杆菌中产的碱性磷酸酶的催化活性;2)证明了这些酶的水解速率、催化效率、热稳定性和最佳pH取决于酶源和底物的立体化学或立体异构体结构;3)发现酸性和碱性磷酸酶对底物的水解范围较广,对对硝基苯基磷酸二(环己基铵)的亲和力比广泛使用的对硝基苯基磷酸六水二钠高。甘薯与大多数底物的反应动力学(Vmax、Km、Kcat、Kcat/Km)值较高。催化活性顺序为:甘薯>小麦胚芽>马铃薯,水解底物顺序为:PNPBC > PNP > PNP2A2E > DG6P2Na > DG6PNa > Bis-PNP >植酸盐。酸性磷酸酶的最适pH为5.0。一般来说,碱性磷酸酶的活性与酸性磷酸酶相似,根据底物的不同,最适pH在10 ~ 13之间。从这项工作中获得的知识将有助于土壤和水环境中的酶催化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Phosphatase Hydrolysis of Organic Phosphorus Compounds
Phosphatases are diverse groups of enzymes that deserve special attention because of their significant roles in organic phosphorus (OP) mineralization to inorganic available forms (Pi). This work 1) compared the catalytic potentials of commercially acid phosphatase from wheat germ, sweet potato, and potato, and alkaline phosphatase from E. coli; 2) demonstrated that the rate of hydrolysis, catalytic efficiency, thermal stability, and optimal pH of these enzymes depended on enzyme sources and the stereochemical or stereoisomeric structures of the substrates; 3) revealed that both acid and alkaline phosphatases exhibited broad range of substrate hydrolysis with high affinity for p-nitrophenyl phosphate bis (cyclohexylammonium) than the widely used p-nitrophenyl phosphate disodium hexahydrate for phosphatase assay. Sweet potato had relatively higher reaction kinetics (Vmax, Km, Kcat, Kcat/Km) values with most substrates tested. The order of catalytic activity was in the order: sweet potato > wheat germ > potato, while the order of substrate hydrolyzed was: PNPBC > PNP > PNP2A2E > DG6P2Na > DG6PNa > Bis-PNP > phytate. The optimum pH for the acid phosphatase was observed to be 5.0. Generally, the activity of alkaline phosphatase was similar to that of acid phosphatase with optimal pH between 10 and 13, depending on the substrates. Knowledge derived from this work would be helpful in enzyme catalysis in soils and water environments.
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