胃蛋白酶抑制剂
酵母
孵化
生物化学
酶
蛋白酶抑制剂
蛋白酶K
蛋白酶3
化学
生物
分子生物学
蛋白酶
抗体
自身抗体
免疫学
作者
Takeyori Saheki,Helmut Holzer
标识
DOI:10.1016/0005-2744(75)90109-6
摘要
Studies on the mechanism and time course of the activation of proteinases A (EC 3.4.23.8), B (EC 3.4.22.9) and C (EC 3.4.12.—) in crude yeast extracts at pH 5.1 and 25°C showed that the increase in proteinase B activity is paralleled with the disappearance of proteinase B inhibitor. Addition of purified proteinase A to fresh crude extracts accelerates the inactivation of the proteinase B inhibitor and the appearance of maximal activities of proteinases B and C. The decrease of proteinase B inhibitor activity and the increase of proteinase B activity are markedly retarded by the addition of pepstatin. Because 10−7 M pepstatin completely inhibits proteinase A without affecting proteinase B activity, this is another indication for the role of proteinase A during the activation of proteinase B. Whereas extracts of yeast grown on minimal medium reached maximal activation of proteinases B and C after 20 h of incubation at pH 5.1 and 25°C, extracts of yeast grown on complete medium had to be incubated for about 100 h. In the latter case, the addition of proteinase A results in maximal activation of proteinases B and C and disappearance of proteinase B inhibitor activity only after 10–20 h of incubation. With the optimal conditions, the maximal activities of proteinases A, B and C, as well as of the proteinase B inhibitor, were determined in crude extracts of yeast that had been grown batchwise for different lengths of time either on minimal or on complete medium. Upon incubation, all three proteinases were activated by several times their initial activity. This reflects the existence of proteolytically degradable inhibitors of the three proteinases and together with the above mentioned observations it demonstrates that the “activation” of yeast proteinases A, B and C upon incubation results from the proteolytic digestion of inhibitors rather than from activation of inactive zymogens by limited proteolysis.
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