Marchiori F, Meggio F, Marin O, Borin G, Calderan A, Ruzza P, Pinna L A
Centro di Studio sui Biopolimeri del CNR, Padova, Italy.
Biochim Biophys Acta. 1988 Oct 7;971(3):332-8. doi: 10.1016/0167-4889(88)90149-8.
Unlike the peptides SAEAAA and SEEAAA which are not substrates for casein kinase 2 (CK-2) their analogs SAAEAE and SAAEAA are still significantly phosphorylated. Their Km values, however, (13.3 and 18.9 mM, respectively) are almost two orders of magnitude higher than that of SEEEEE and their Vmax values are 3- and 14-fold lower than that of SAAEEE. The peptide ESEEEEE, but not ASEEEEE, is a slightly better substrate than SEEEEE, while both RSEEEEE and SEEEKE are very poor substrates compared to ASEEEEE and SEEEAE, respectively. SAAEAE is much more responsive to polylysine stimulation and polyphosphate inhibition than is SEEEEE. Taken together these data show that a single acidic residue at the third position from the C-terminal side of the phosphorylatable amino acid represents not only a necessary, but also a sufficient condition for site recognition by CK-2. Optimal phosphorylation efficiency, however, requires an extended C-terminal cluster of several acidic residues, and can be compromised by the presence of only a basic residue either inside the acidic cluster or adjacent to the N-terminal side of the phosphoacceptor amino acid. The structure of the phosphoacceptor site can greatly influence the efficacy of substrate-directed effectors of CK-2.
与酪蛋白激酶2(CK-2)的非底物肽SAEAAA和SEEEEE不同,它们的类似物SAAEAE和SAAEAA仍能被显著磷酸化。然而,它们的米氏常数(分别为13.3和18.9 mM)几乎比SEEEEE高两个数量级,并且它们的最大反应速度值比SAAEEE低3倍和14倍。肽ESEEEEE(而非ASEEEEE)是比SEEEEE稍好的底物,而与ASEEEEE和SEEEEAE相比,RSEEEEE和SEEEEKE分别是非常差的底物。与SEEEEE相比,SAAEAE对多聚赖氨酸刺激和多磷酸盐抑制的反应性要强得多。综合这些数据表明,可磷酸化氨基酸C末端一侧第三个位置的单个酸性残基不仅是CK-2识别位点的必要条件,也是充分条件。然而,最佳磷酸化效率需要几个酸性残基组成的延伸C末端簇,并且酸性簇内部或磷酸受体氨基酸N末端一侧仅存在一个碱性残基就可能损害磷酸化效率。磷酸受体位点的结构可极大地影响CK-2的底物导向效应物的功效。
