Tyc K, Konarska M, Gross H J, Filipowicz W
Eur J Biochem. 1984 May 2;140(3):503-11. doi: 10.1111/j.1432-1033.1984.tb08131.x.
Tobacco mosaic virus (TMV) RNA with a long 5'-terminal leader sequence, as well as its isolated leader fragment (called omega), can form disome initiation complexes with wheat germ ribosomes. The second ribosome of the disome complex is bound to the leader sequence, upstream of an 80S particle occupying the AUG-containing initiation site [ Filipowicz and Haenni (1979) Proc. Natl Acad. Sci. USA 76, 3111-3115; Konarska et al. (1981) Eur. J. Biochem. 114, 221-227]. In order to identify the parts of omega important for interaction with ribosomes, the 5'-terminally-labelled omega was treated with alkali and the resultant fragments of different lengths were used in binding experiments. A 16-nucleotide-long fragment bearing the AUU sequence at the 3' end is the shortest oligonucleotide capable of forming 80S complexes with wheat germ ribosomes. Full-length (73 nucleotides) omega with AUG at the 3' terminus is the only RNA fragment supporting disome complex formation. Synthetic oligoribonucleotides were prepared for a study of 80S complex assembly at codons other than AUG. Hexadecanucleotide (A) 13A -U-U and, to lesser extent, also (A) 13A -U-C, (A) 13A -U-A and (A) 13A -C-G bind 80S ribosomes. Formation of the (A) 13A -U-U X 80S complex is dependent on the presence of initiator Met- tRNAMerf . Assembly of the 80S particle at the AUU sequence is not an artifact resulting from the terminal position of this triplet. (A) 13A -U-U elongated with over 100 A residues still efficiently binds an 80S ribosome positioned, as established by ribosome protection experiments, at the AUU triplet. The present results support the notion that 80S initiation-like complexes can be formed at sequences containing AUU codons. The possible function of these complexes as intermediates in initiation of translation of some viral RNAs is discussed.
带有长5'末端前导序列的烟草花叶病毒(TMV)RNA,以及其分离出的前导片段(称为ω),可以与小麦胚芽核糖体形成二体起始复合物。二体复合物的第二个核糖体与前导序列结合,位于占据含AUG起始位点的80S颗粒的上游[菲利波维茨和埃尼(1979年)《美国国家科学院院刊》76,3111 - 3115;科纳尔斯卡等人(1981年)《欧洲生物化学杂志》114,221 - 227]。为了确定ω中对与核糖体相互作用重要的部分,对5'末端标记的ω进行碱处理,并将得到的不同长度的片段用于结合实验。在3'端带有AUU序列的16个核苷酸长的片段是能够与小麦胚芽核糖体形成80S复合物的最短寡核苷酸。在3'末端带有AUG的全长(73个核苷酸)ω是唯一支持二体复合物形成的RNA片段。制备了合成寡核糖核苷酸,用于研究除AUG以外密码子处的80S复合物组装。十六聚体(A)13A - U - U,以及程度稍小的(A)13A - U - C、(A)13A - U - A和(A)13A - C - G能结合80S核糖体。(A)13A - U - U×80S复合物的形成依赖于起始甲硫氨酰 - tRNAfMet的存在。80S颗粒在AUU序列处的组装不是由该三联体的末端位置导致的假象。经核糖体保护实验确定,用超过100个A残基延长的(A)13A - U - U仍能有效结合位于AUU三联体处的80S核糖体。目前的结果支持这样一种观点,即80S起始样复合物可以在含有AUU密码子的序列处形成。讨论了这些复合物作为某些病毒RNA翻译起始中间体的可能功能。
