Characterization of a putative ribosome binding site at the 5' untranslated region of bovine heat shock protein 90.

Abstract

Untranslated regions (UTRs) of the transcripts play significant roles in translation regulation and continue to raise many intriguing questions in our understanding of cellular stress physiology. Internal ribosome entry site (IRES) mediated alternative translation initiations are emerging as unique mechanisms. Present study is aimed to indentify a functional short 92 base pair length putative sequence located at the 5' untranslated region of bovine heat shock protein 90 AA1 (Hsp90AA1) may interact with ribosomal as well as eukaryotic initiation factor binding site. Here we have predicted both the two and three dimensional structures of bovine Hsp90AA1 IRES (MF400854) element with their respective free energy. Molecular interactions between bovine RPS5 and IRES have been determined after the preparation of docking complex of IRES bound RPS5. Structure of bovine ribosomal translational initiation factor (TIF) has also been determined and docked with IRES. Molecular interaction between bovine TIF and IRES was analyzed from the complex structure. We further detected the relative expression efficiency of the viral (original) in relation with Hsp90AA1 IRES-driven GFP expression, which revealed that efficiency under the control of identified bovine Hsp90AA1 IRES was slightly lower than viral origin. It was also noted that identified bovine HSP90 IRES may increase the expression level of GFP under in vitro heat stressed condition.