Thanaraj T A, Pandit M W
Centre for Cellular and Molecular Biology, Hyderabad, India.
Nucleic Acids Res. 1989 Apr 25;17(8):2973-85. doi: 10.1093/nar/17.8.2973.
For various genes of E. coli, three regions (-55 to -1; -35 to -1; -21 to -1) 5' to AUG codon on mRNA were searched for sites of interaction with colicin fragment of 16S rRNA. The detailed sequence comparison points out that apart from Shine-Dalgarno base pairing, an additional ribosome-binding site, a subsequence of 5'-UGAUCC-3' invariably exists in mRNA for highly expressed genes. Poorly expressed genes appear to be controlled by only Shine-Dalgarno base pairing. The analysis indicates that in the initiator region, the -55 to -1 region contains the signal which decides the efficiency of the translation-initiation. The site on 16S rRNA, 5'-GGAUCA-3' at position 1529, that can base pair to the above site, has a recognition site on 23S rRNA at position 2390. In the light of the conserved nature and accessibility of these sites, it is proposed that the site on 16S rRNA plays a bifunctional role--initially it binds to mRNA from highly expressed genes to form a stable 30S initiation complex, and upon association with 50S subunit it exchanges base pairing with 23S rRNA, thus leaving the site on mRNA free.
针对大肠杆菌的各种基因,在mRNA上AUG密码子的5'端三个区域(-55至-1;-35至-1;-21至-1)寻找与16S rRNA的大肠杆菌素片段相互作用的位点。详细的序列比较指出,除了Shine-Dalgarno碱基配对外,对于高表达基因,mRNA中始终存在一个额外的核糖体结合位点,即5'-UGAUCC-3'的子序列。低表达基因似乎仅受Shine-Dalgarno碱基配对控制。分析表明,在起始区域,-55至-1区域包含决定翻译起始效率的信号。16S rRNA上位于1529位的5'-GGAUCA-3'位点可与上述位点进行碱基配对,该位点在23S rRNA上位于2390位处有一个识别位点。鉴于这些位点的保守性和可及性,有人提出16S rRNA上的该位点具有双功能作用——最初它与高表达基因的mRNA结合形成稳定的30S起始复合物,与50S亚基结合后,它与23S rRNA交换碱基配对,从而使mRNA上的位点游离。