Umphress J L, Tuazon P T, Chen C J, Traugh J A
Department of Biochemistry, University of California, Riverside 92521-0129.
Eur J Biochem. 1992 Jan 15;203(1-2):239-43. doi: 10.1111/j.1432-1033.1992.tb19852.x.
Casein kinase I has been shown to phosphorylate Ser123 and possibly Thr124, in simian virus 40 (SV40) large T antigen; the same sites are also modified in cultured cells incubated with 32Pi [Friedrich A. Grässer, Karl H. Scheidtmann, Polygena T. Tuazon, Jolinda A. Traugh & Gernot Walter (1988) Virology 165, 13-22]. The peptide, A-D-S-Q-H-S-T-P-P, which corresponds to the amino acid sequence 118-125 of SV40 large T antigen, was synthesized together with peptides containing changes in specific amino acid residues on either side of Ser123. These peptides were used as model substrates to determine the amino acids in the SV40 large T antigen important for recognition by casein kinase I. The native peptide identified above, with aspartate at the -4 position, was a poor substrate for casein kinase I in vitro. Peptides with acidic residues added at the -2 and -3 positions, preceding Ser123, were phosphorylated by casein kinase I with apparent Km values around 2 mM and Vmax values up to 500 pmol.min-1.ml-1. When acidic residues were added at both sides of the phosphorylatable serine, the peptide had a first-order rate constant over 20-fold higher than peptides with acidic amino acid residues at the N-terminus only; the apparent Km value was 0.65 mM with a Vmax of 2900 pmol.min-1.ml-1. The effects of modifying Ser120 to phosphoserine were examined by addition of a recognition sequence for the cAMP-dependent protein kinase prior to Ser120. Prior phosphorylation of the peptide at Ser120 lowered the apparent Km to 0.061 mM and increased the Vmax to 360 pmol.min-1.ml-1, a 50-fold decrease in Km for casein kinase I and a 6-fold increase in Vmax as compared to the non-phosphorylated peptide. This indicates that Ser120, which has been shown to be phosphorylated in vivo, provides an appropriate recognition determinant for casein kinase I.
酪蛋白激酶I已被证明可磷酸化猿猴病毒40(SV40)大T抗原中的Ser123,可能还有Thr124;在用32Pi孵育的培养细胞中,相同的位点也会被修饰[弗里德里希·A·格拉瑟、卡尔·H·谢特曼、波莉吉娜·T·图阿松、乔琳达·A·特劳赫和格诺特·沃尔特(1988年),《病毒学》165卷,第13 - 22页]。与SV40大T抗原氨基酸序列118 - 125相对应的肽A - D - S - Q - H - S - T - P - P,以及在Ser123两侧特定氨基酸残基有变化的肽一起被合成。这些肽被用作模型底物,以确定SV40大T抗原中对酪蛋白激酶I识别重要的氨基酸。上述鉴定出的天然肽,在 - 4位为天冬氨酸,在体外是酪蛋白激酶I的不良底物。在Ser123之前的 - 2和 - 3位添加酸性残基的肽,可被酪蛋白激酶I磷酸化,表观Km值约为2 mM,Vmax值高达500 pmol·min-1·ml-1。当在可磷酸化丝氨酸两侧都添加酸性残基时,该肽的一级速率常数比仅在N端有酸性氨基酸残基的肽高20倍以上;表观Km值为0.65 mM,Vmax为2900 pmol·min-1·ml-1。通过在Ser120之前添加依赖于cAMP的蛋白激酶的识别序列,研究了将Ser120修饰为磷酸丝氨酸的效果。肽在Ser120处预先磷酸化后,表观Km降至0.061 mM,Vmax增加到360 pmol·min-1·ml-1,与未磷酸化的肽相比,酪蛋白激酶I的Km降低了50倍,Vmax增加了6倍。这表明已证实在体内被磷酸化的Ser120为酪蛋白激酶I提供了合适的识别决定簇。
