Department of Biochemistry and Molecular Biology, The University of Chicago, 5801 S. Ellis Av, Chicago, IL 60637, USA.
Mol Biol Rep. 2011 Feb;38(2):847-55. doi: 10.1007/s11033-010-0176-1. Epub 2010 May 14.
The various mechanisms proposed to describe the initiation of protein synthesis are reviewed with a focus on their initiation signals. A characteristic feature of the various mechanisms is that each one of them postulates a distinct initiation signal. The signals of the Shine-Dalgarno (SD), the scanning and the internal ribosome entry site (IRES) mechanisms are all located exclusively in the 5' leader sequence, whereas, the signal of the cumulative specificity (CS) mechanism includes the entire initiation site (IS). Computer analysis of known E. coli IS sequences showed signal characteristics in the entire model IS consisting of 47 bases, in segments of the 5' leader and of the protein-coding regions. The proposal that eukaryotic translation actually occurs in two steps is scrutinized. In a first step, initiation factors (eIF4F) interact with the cap of the mRNA, thereby enhancing the accessibility of the IS. In the second step, initiation is by the conserved prokaryotic mechanism in which the ribosomes bind directly to the mRNA without ribosomal scanning. This binding occurs by the proposed process of in reading frame binding of ribosomes to mRNA, which is consistent with the CS mechanism. The basic CS mechanism is able to account for the initiation of translation of leaderless mRNAs, as well as for that of canonical mRNAs. The SD, the scanning and the IRES mechanisms, on the other hand, are inconsistent with the initiation of translation of leaderless mRNAs. Based on these and other observations, it is deemed that the CS mechanism is the universal initiation mechanism.
本文回顾了各种用于描述蛋白质合成起始的机制,重点关注它们的起始信号。这些机制的一个共同特点是,它们各自都假定了一个独特的起始信号。Shine-Dalgarno(SD)、扫描和内部核糖体进入位点(IRES)机制的信号都只位于 5' 先导序列中,而累积特异性(CS)机制的信号则包括整个起始位点(IS)。对已知大肠杆菌 IS 序列的计算机分析显示,在由 47 个碱基组成的整个模型 IS 中,以及在 5' 先导区和蛋白质编码区的片段中,都存在信号特征。对真核翻译实际上分两步进行的观点进行了仔细审查。在第一步中,起始因子(eIF4F)与 mRNA 的帽结构相互作用,从而提高了 IS 的可及性。在第二步中,起始是通过保守的原核机制进行的,核糖体无需核糖体扫描即可直接与 mRNA 结合。这种结合通过核糖体与 mRNA 按读框结合的提议过程发生,这与 CS 机制一致。基本的 CS 机制能够解释无 5' 先导序列的 mRNA 的翻译起始,也能够解释典型的 mRNA 的翻译起始。另一方面,SD、扫描和 IRES 机制与无 5' 先导序列的 mRNA 的翻译起始不一致。基于这些和其他观察结果,认为 CS 机制是通用的起始机制。
