Yamaguchi M
J Biochem. 1979 Aug;86(2):325-33. doi: 10.1093/oxfordjournals.jbchem.a132530.
Reactions catalyzed by NAD-linked malic enzyme from Escherichia coli were investigated. In addition to L-malate oxidative decarboxylase activity (Activity 1) and oxaloacetate decarboxylase activity (Activity 2), the enzyme exhibited oxaloacetate reductase activity (Activity 3) and pyruvate reductase activity (Activity 4). Optimum pH's for Activities 3 and 4 were 4.0 and 5.0, and their specific activities were 1.7 and 0.07, respectively. Upon reaction with N-ethylmaleimide (NEM), Activity 1 decreased following pseudo-first order kinetics. Activity 2 decreased in parallel with Activity 1, while Activities 3 and 4 were about ten-fold enhanced by NEM modification. Modification of one or two sulfhydryl groups per enzyme subunit caused an alteration of the activities. Tartronate, a substrate analog, NAD+, and Mn2+ protected the enzyme against the modification. The Km values for the substrates and coenzymes were not significantly affected by NEM modification. Similarly, other sulfhydryl reagents such as p-hydroxymercuribenzoate (PMB), 5,5'-dithiobis(2-nitrobenzoate) (DTNB), and iodoacetate inhibited the decarboxylase activities and activated the reductase activities to various extents. Modification of the enzyme with PMB or DTNB was reversed by the addition of a sulfhydryl compound such as dithiothreitol or 2-mercaptoethanol. Based on the above results, the mechanism of the alteration of enzyme activities by sulfhydryl group modification is discussed.
对大肠杆菌中由NAD连接的苹果酸酶催化的反应进行了研究。除了L-苹果酸氧化脱羧酶活性(活性1)和草酰乙酸脱羧酶活性(活性2)外,该酶还表现出草酰乙酸还原酶活性(活性3)和丙酮酸还原酶活性(活性4)。活性3和活性4的最适pH分别为4.0和5.0,它们的比活性分别为1.7和0.07。与N-乙基马来酰亚胺(NEM)反应时,活性1按照假一级动力学下降。活性2与活性1平行下降,而活性3和活性4经NEM修饰后增强了约10倍。每个酶亚基修饰一个或两个巯基会导致活性改变。底物类似物酒石酸、NAD⁺和Mn²⁺可保护该酶不被修饰。底物和辅酶的Km值不受NEM修饰的显著影响。同样,其他巯基试剂如对羟基汞苯甲酸(PMB)、5,5'-二硫代双(2-硝基苯甲酸)(DTNB)和碘乙酸在不同程度上抑制脱羧酶活性并激活还原酶活性。用PMB或DTNB对酶进行的修饰可通过添加巯基化合物如二硫苏糖醇或2-巯基乙醇来逆转。基于上述结果,讨论了通过巯基修饰改变酶活性的机制。
