Shu-Nu C, Lin C H, Lin A
Institute of Genetics, National Yang-Ming University, Shih-Pai, Taipei, Taiwan.
FEBS Lett. 2000 Oct 27;484(1):22-8. doi: 10.1016/s0014-5793(00)02118-9.
The control of human ribosomal protein L22 (rpL22) to enter into the nucleolus and its ability to be assembled into the ribosome is regulated by its sequence. The nuclear import of rpL22 depends on a classical nuclear localization signal of four lysines at positions 13-16. RpL22 normally enters the nucleolus via a compulsory sequence of KKYLKK (I-domain, positions 88-93). An acidic residue cluster at the C-terminal end (C-domain) plays a nuclear retention role. The retention is concealed by the N-domain (positions 1-9) which weakly interacts with the C-domain as demonstrated in the yeast two-hybrid system. Once it reaches the nucleolus, the question of whether rpL22 is assembled into the ribosome depends upon the presence of the N-domain. This suggests that the N-domain, on dissociation from its interaction with the C-domain, binds to a specific region of the 28S rRNA for ribosome assembly.
人类核糖体蛋白L22(rpL22)进入核仁的调控及其组装到核糖体中的能力受其序列调控。rpL22的核输入依赖于第13 - 16位四个赖氨酸的经典核定位信号。RpL22通常通过KKYLKK(I结构域,第88 - 93位)的强制序列进入核仁。C末端(C结构域)的酸性残基簇起核滞留作用。如酵母双杂交系统所示,N结构域(第1 - 9位)与C结构域弱相互作用,从而掩盖了这种滞留作用。一旦到达核仁,rpL22是否组装到核糖体中取决于N结构域的存在。这表明,N结构域与其与C结构域的相互作用解离后,会与28S rRNA的特定区域结合以进行核糖体组装。