Nishiyama Takashi, Yamamoto Hiroshi, Shibuya Norihiro, Hatakeyama Yoshinori, Hachimori Akira, Uchiumi Toshio, Nakashima Nobuhiko
National Institute of Agrobiological Sciences, Owashi, Tsukuba, Ibaraki 305-8634, Japan.
Nucleic Acids Res. 2003 May 1;31(9):2434-42. doi: 10.1093/nar/gkg336.
Plautia stali intestine virus (PSIV) has an internal ribosome entry site (IRES) at the intergenic region of the genome. The PSIV IRES initiates translation with glutamine rather than the universal methionine. To analyze the mechanism of IRES-mediated initiation, binding of IRES RNA to salt-washed ribosomes in the absence of translation factors was studied. Among the three pseudoknots (PKs I, II and III) within the IRES, PK III was the most important for ribosome binding. Chemical footprint analyses showed that the loop parts of the two stem-loop structures in Domain 2, which are highly conserved in related viruses, are protected by 40S but not by 60S ribosomes. Because PK III is close to the two loops, these structural elements were considered to be important for binding of the 40S subunit. Competitive binding analyses showed that the IRES RNA does not bind poly(U)-programmed ribosomes preincubated with tRNA(Phe) or its anticodon stem- loop (ASL) fragment. However, Domain 3-deleted IRES bound to programmed ribosomes preincubated with the ASL, suggesting that Domains 1 and 2 have roles in IRES binding to 40S subunits and that Domain 3 is located at the ribosome decoding site.
斯氏负蝽肠道病毒(PSIV)在基因组的基因间隔区具有一个内部核糖体进入位点(IRES)。PSIV的IRES以谷氨酰胺而非通用的甲硫氨酸起始翻译。为了分析IRES介导的起始机制,研究了在没有翻译因子的情况下IRES RNA与盐洗核糖体的结合。在IRES内的三个假结(PK I、II和III)中,PK III对核糖体结合最为重要。化学足迹分析表明,结构域2中两个茎环结构的环部分在相关病毒中高度保守,受到40S核糖体而非60S核糖体的保护。由于PK III靠近这两个环,这些结构元件被认为对40S亚基的结合很重要。竞争性结合分析表明,IRES RNA不与预先用tRNA(Phe)或其反密码子茎环(ASL)片段预孵育的聚(U)编程核糖体结合。然而,缺失结构域3的IRES与预先用ASL预孵育的编程核糖体结合,这表明结构域1和2在IRES与40S亚基的结合中起作用,并且结构域3位于核糖体解码位点。