钒酸盐对酵母质膜ATP酶抑制作用的影响因素。

Factors affecting the inhibition of yeast plasma membrane ATPase by vanadate.

作者信息

Borst-Pauwels G W, Peters P H

出版信息

Biochim Biophys Acta. 1981 Mar 20;642(1):173-81. doi: 10.1016/0005-2736(81)90147-4.

Abstract

Inhibition of yeast plasma membrane ATPase by vanadate occurs only if either Mg2+ or MgATP2- is bound to the enzyme. The dissociation constant of the complex of vanadate and inhibitory sites is 0.14-0.20 microM in the presence of optimal concentrations of Mg2+ and of the order of 1 microM if the enzyme is saturated with MgATP2-. The dissociation constants of Mg2+ and MgATP2- for the sites involved are 0.4 and 0.62-0.73 mM, respectively, at pH 7. KCl does not increase the affinity of vanadate to the inhibitory sites as was found with (Na+ + K+)-ATPase. On the other hand, the effect of Mg2+ upon vanadate binding is similar to that upon (Na+ + K+)-ATPase, and the corresponding affinity constants of Mg2+ and vanadate for the two enzymes are of the same order of magnitude.

摘要

仅当Mg2+或MgATP2-与该酶结合时，钒酸盐才会抑制酵母质膜ATP酶。在存在最佳浓度的Mg2+时，钒酸盐与抑制位点复合物的解离常数为0.14 - 0.20微摩尔，如果该酶被MgATP2-饱和，则解离常数约为1微摩尔。在pH 7时，参与位点的Mg2+和MgATP2-的解离常数分别为0.4和0.62 - 0.73毫摩尔。与（Na+ + K+）-ATP酶的情况不同，KCl不会增加钒酸盐对抑制位点的亲和力。另一方面，Mg2+对钒酸盐结合的影响与对（Na+ + K+）-ATP酶的影响相似，并且Mg2+和钒酸盐对这两种酶的相应亲和常数处于相同的数量级。

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钒酸盐对酵母质膜ATP酶抑制作用的影响因素。

Factors affecting the inhibition of yeast plasma membrane ATPase by vanadate.

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