猪脑钠钾离子刺激的三磷酸腺苷酶制备过程中一些次要活动的比较。
Comparison of some minor activities accompanying a preparation of sodium-plus-potassium ion-stimulated adenosine triphosphatase from pig brain.
作者信息
Fujita M, Nagano K, Mizuno N, Tashima Y, Nakao T, Nakao M
出版信息
Biochem J. 1968 Jan;106(1):113-21. doi: 10.1042/bj1060113.
Abstract
- An ATPase (adenosine triphosphatase) preparation obtained from pig brain microsomes by treatment with sodium iodide showed four apparently different ouabain-sensitive activities under various conditions. They were (a) ouabain-sensitive Mg(2+)-stimulated ATPase, (b) K(+)-stimulated ATPase, (c) (Na(+),K(+))-stimulated ATPase and (d) Na(+)-stimulated ATPase activities. 2. These activities showed the same substrate specificity, ATP being preferentially hydrolysed and CTP slightly. AMP was not hydrolysed. 3. These activities were inhibited by low concentration of ouabain. The concentration producing 50% inhibition was 0.1mum for ouabain-sensitive Mg(2+)-stimulated ATPase, 0.2mum for K(+)-stimulated ATPase, 0.1mum for (Na(+),K(+))-stimulated ATPase and 0.003mum for Na(+)-stimulated ATPase activity. 4. The ouabain-sensitive ATPase activities were inactivated by N-ethylmaleimide but the insensitive ATPase activity was not. 5. The three ouabain-sensitive ATPase activities were inhibited about 50% by 1mm-Ca(2+), whereas the ouabain-sensitive Mg(2+)-stimulated ATPase activity was activated by the same concentration of Ca(2+). The preparation was treated with ultrasonics at 20kcyc./sec. The 2min. ultrasonic treatment inactivated the ATPase activities by 50%. 7. The temperature coefficient Q(10) was 6.6 for K(+)-stimulated ATPase activity, 3.7 for (Na(+),K(+))-stimulated ATPase and 2.6 for Na(+)-stimulated ATPase. 8. Organic solvents inactivated the ATPase activities, to which treatment the K(+)-stimulated ATPase was the most resistant. 9. The phosphorylation of the enzyme preparation became less dependent on Na(+) with decreasing pH. This Na(+)-independent phosphorylation at low pH was sensitive to K(+) and hydroxylamine as well as the Na(+)-dependent phosphorylation at neutral pH.
摘要
- 用碘化钠处理猪脑微粒体获得的一种ATP酶(腺苷三磷酸酶)制剂,在不同条件下表现出四种明显不同的哇巴因敏感活性。它们分别是:(a)哇巴因敏感的镁离子刺激的ATP酶,(b)钾离子刺激的ATP酶,(c)(钠离子,钾离子)刺激的ATP酶和(d)钠离子刺激的ATP酶活性。2. 这些活性表现出相同的底物特异性,优先水解ATP,对CTP的水解作用较弱。AMP不被水解。3. 这些活性受到低浓度哇巴因的抑制。对哇巴因敏感的镁离子刺激的ATP酶产生50%抑制的浓度为0.1微摩尔,钾离子刺激的ATP酶为0.2微摩尔,(钠离子,钾离子)刺激的ATP酶为0.1微摩尔,钠离子刺激的ATP酶活性为0.003微摩尔。4. 哇巴因敏感的ATP酶活性被N-乙基马来酰胺灭活,但不敏感的ATP酶活性未被灭活。5. 三种哇巴因敏感的ATP酶活性被1毫摩尔的钙离子抑制约50%,而哇巴因敏感的镁离子刺激的ATP酶活性被相同浓度的钙离子激活。该制剂在20千周/秒的频率下进行超声处理。2分钟的超声处理使ATP酶活性降低50%。7. 钾离子刺激的ATP酶活性的温度系数Q(10)为6.6,(钠离子,钾离子)刺激的ATP酶为3.7,钠离子刺激的ATP酶为2.6。8. 有机溶剂使ATP酶活性灭活,钾离子刺激的ATP酶对这种处理最具抗性。9. 随着pH值降低,酶制剂的磷酸化对钠离子的依赖性降低。低pH值下这种不依赖钠离子的磷酸化对钾离子和羟胺敏感,中性pH值下依赖钠离子的磷酸化也是如此。
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