Ponnala Lalit
Computational Biology Service Unit, Cornell University, Ithaca NY USA.
Bioinform Biol Insights. 2010 Jun 28;4:55-60. doi: 10.4137/bbi.s5236.
The presence of nucleotide hybridization between the 3' end of 16S rRNA and mRNA sequence upstream of the start codon is well known in bacteria. In this paper, we detect the presence of such hybridization sites inside the coding regions of E. coli genes, and analyze their proximity to clusters of slow-translating codons. We study this phenomenon in genes of high and low expression separately. Based on our findings, we propose an explanation for the presence of RNA hybridization within the translated regions of bacterial genes.
16S rRNA的3'末端与起始密码子上游的mRNA序列之间存在核苷酸杂交现象,这在细菌中是众所周知的。在本文中,我们检测了大肠杆菌基因编码区域内这种杂交位点的存在,并分析了它们与慢翻译密码子簇的接近程度。我们分别在高表达和低表达的基因中研究了这一现象。基于我们的发现,我们对细菌基因翻译区域内RNA杂交的存在提出了一种解释。