氯离子与酵母氨肽酶I的相互作用。平衡结合研究。

Interaction of chloride with yeast aminopeptidase I. Equilibrium binding studies.

作者信息

Hetz G, Röhm K H

出版信息

Biol Chem Hoppe Seyler. 1987 Jan;368(1):63-6. doi: 10.1515/bchm3.1987.368.1.63.

DOI:10.1515/bchm3.1987.368.1.63

Abstract

The effect of chloride on metal binding by yeast aminopeptidase I, as well as the binding of chloride to various enzyme forms were studied by means of a micro-centrifugation technique using radioactive 36Cl- as a ligand. Chloride did not significantly alter the binding of activating Zn2+, or binding of Co2+ to the essential metal sites. Both the native Zn2+ enzyme and Co2+-substituted aminopeptidase I bind stoichiometric amounts of C1- (1 Cl-/subunit) with apparent dissociation constants of 0.1-0.2 mM. Additional Cl- was bound at higher concentrations. In contrast to the metal-containing enzyme forms the apoenzyme did not express the high-affinity chloride binding site.

摘要

采用微量离心技术，以放射性(^{36}Cl^-)作为配体，研究了氯离子对酵母氨肽酶I结合金属的影响以及氯离子与各种酶形式的结合情况。氯离子对激活锌离子的结合或钴离子与必需金属位点的结合没有显著影响。天然锌离子酶和钴离子取代的氨肽酶I均以化学计量比结合氯离子（每亚基1个(Cl^-)），表观解离常数为(0.1 - 0.2 mM)。在较高浓度下会结合额外的氯离子。与含金属的酶形式不同，脱辅基酶不表现出高亲和力的氯离子结合位点。

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