Poster abstracts
Poster number 6 submitted by Daisy DiVita
Excess eukaryotic initiation factor 2A plays a regulatory role in mRNA translation
Daisy J. DiVita (The Ohio State Biochemistry Program, Department of Biological Chemistry and Pharmacology, Center for RNA Biology), Michael G. Kearse (The Ohio State Biochemistry Program, Department of Biological Chemistry and Pharmacology, Center for RNA Biology)
Abstract:
Canonical translation uses the heterotrimeric eukaryotic initiation factor 2 (eIF2) as the initiator tRNA (Met-tRNAiMet) carrier and as a central node of regulation. However, eIF2 was not the first Met-tRNAiMet carrier identified in eukaryotes. eIF2A (a monomer that is non-homologous to eIF2) was the initial Met-tRNAiMet binding protein discovered, but its role in translation was overshadowed after eIF2 was identified. Recent reports have shown that eIF2A is required for cancer progression, is not part of the canonical set of initiation factors, displays uncharacteristic GTP-independence for tRNA binding (unlike other tRNA-binding translation factors), and is able to stimulate initiation at CUG codons using Leu-tRNACUG; however, the exact function of eIF2A remains unknown. To determine how eIF2A functions in translation initiation, we programed in vitro translation extracts with recombinant human eIF2A. Our preliminary data show a significant decrease in reporter activity when recombinant eIF2A is present, suggesting eIF2A is an inhibitor of translation. Here we will pursue testing how eIF2A is inhibiting translation and whether this inhibition requires specific translation factors during certain stages of initiation. Together, these mechanistic insights will shed light on how non-canonical initiation factors are used and regulate eukaryotic translation.
Keywords: translational regulation, ribosome, initiation factors