Phosphorylation of eukaryotic initiation factors was previously shown to interact with m7G cap and play an important role in the regulation of translation initiation of protein synthesis. To gain further insight into the phosphorylation process of plant protein synthesis, the kinetics of phosphorylated wheat eIFiso4E binding to m7G cap analogues were examined. Phosphorylation of wheat eIFiso4E showed similar kinetic effects to human eIF4E binding to m7-G cap. Phosphorylation of eIFiso4E decreased the kinetic rate (2-fold) and increased the dissociation rate (2-fold) as compared to non-phosphorylated eIFiso4E binding to both mono- and di-nucleotide analogues at 22°C. Phosphorylated and non-phosphorylated eIFiso4E-m7G cap binding rates were found to be independent of concentration, suggesting conformational changes were rate limiting. Rate constant for phosphorylated and non-phosphorylated eIFiso4E binding to m7-G cap increased with temperature. Phosphorylation of eIFiso4E decreased (2-fold) the activation energy for both m7-G cap analogues binding as compared to non-phosphorylated eIFiso4E. The reduced energy barrier for the formation of eIFiso4E-m7-G cap complex suggests a more stable platform for further initiation complex formation and possible means of adapting variety of environmental conditions. Furthermore, the formation of phosphorylated eIFiso4E-cap complex may contribute to modulation of the initiation of protein synthesis in plants.
Keywords: Fluorescence spectroscopy; Phosphorylation; Stopped-Flow kinetics.
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