Maurizi M R
J Biol Chem. 1987 Feb 25;262(6):2696-703.
Lon protease from Escherichia coli degraded lambda N protein in a reaction mixture consisting of the two homogeneous proteins, ATP, and MgCl2 in 50 mM Tris, Ph 8.0. Genetic and biochemical data had previously indicated that N protein is a substrate for Lon protease in vivo (Gottesman, S., Gottesman, M., Shaw, J. E., and Pearson, M. L. (1981) Cell 24, 225-233). Under conditions used for N protein degradation, several lambda and E. coli proteins, including native proteins, oxidatively modified proteins, and cloned fragments of native proteins, were not degraded by Lon protease. Degradation of N protein occurred with catalytic amounts of Lon protease and required the presence of ATP or an analog of ATP. This is the first demonstration of the selective degradation of a physiological substrate by Lon protease in vitro. The turnover number for N protein degradation was approximately 60 +/- 10 min-1 at pH 8.0 in 50 mM Tris/HCl, 25 mM MgCl2 and 4 mM ATP. By comparison the turnover number for oxidized insulin B chain was 20 min-1 under these conditions. Kinetic studies suggest that N protein (S0.5 = 13 +/- 5 microM) is intermediate between oxidized insulin B chain (S0.5 = 160 +/- 10 microM) and methylated casein (S0.5 = 2.5 +/- 1 microM) in affinity for Lon protease. N protein was extensively degraded by Lon protease with an average of approximately six bonds cleaved per molecule. In N protein, as well as in oxidized insulin B chain and glucagon, Lon protease preferentially cut at bonds at which the carboxy group was contributed by an amino acid with an aliphatic side chain (leucine or alanine). However, not all such bonds of the substrates were cleaved, indicating that sequence or conformational determinants beyond the cleavage site affect the ability of Lon protease to degrade a protein.
来自大肠杆菌的Lon蛋白酶在由两种均一蛋白质、ATP和MgCl2组成的反应混合物中,于50 mM Tris(pH 8.0)中降解λ N蛋白。遗传学和生物化学数据先前表明,N蛋白在体内是Lon蛋白酶的底物(戈特斯曼,S.,戈特斯曼,M.,肖,J. E.,皮尔逊,M. L.(1981年)《细胞》24卷,225 - 233页)。在用于N蛋白降解的条件下,几种λ和大肠杆菌蛋白,包括天然蛋白、氧化修饰蛋白以及天然蛋白的克隆片段,均未被Lon蛋白酶降解。N蛋白的降解在催化量的Lon蛋白酶存在下发生,并且需要ATP或ATP类似物的存在。这是首次在体外证明Lon蛋白酶对生理底物的选择性降解。在50 mM Tris/HCl、25 mM MgCl2和4 mM ATP条件下,pH 8.0时N蛋白降解的周转数约为60±10 min-1。相比之下,在这些条件下氧化胰岛素B链的周转数为20 min-1。动力学研究表明,N蛋白(S0.5 = 13±5 μM)对Lon蛋白酶的亲和力介于氧化胰岛素B链(S0.5 = 160±10 μM)和甲基化酪蛋白(S0.5 = 2.5±1 μM)之间。N蛋白被Lon蛋白酶广泛降解,平均每个分子约有六个键被切割。在N蛋白以及氧化胰岛素B链和胰高血糖素中,Lon蛋白酶优先在羧基由具有脂肪族侧链(亮氨酸或丙氨酸)的氨基酸提供的键处切割。然而,底物的并非所有此类键都被切割,这表明切割位点之外的序列或构象决定因素会影响Lon蛋白酶降解蛋白质的能力。
