Abstract
The GTP-binding eukaryotic translation initiation factor eIF2 delivers initiator methionyl-tRNA to the 40 S ribosomal subunit. The factor eIF5 stimulates hydrolysis of GTP by eIF2 upon AUG codon recognition, whereas the factor eIF2B promotes guanine nucleotide exchange on eIF2 to recycle the factor for additional rounds of translation initiation. The GTP-binding (G) domain resides in the gamma subunit of the heterotrimeric eIF2; however, only eIF2beta, and not eIF2gamma, has been reported to directly bind to eIF5 or eIF2B. Using proteins expressed in yeast or recombinant systems we show that full-length yeast eIF2gamma, as well as its isolated G domain, binds directly to eIF5 and the epsilon subunit of eIF2B, and we map the interaction sites to the catalytically important regions of these factors. Consistently, an internal deletion of residues 50-100 of yeast eIF5 impairs the interaction with recombinant eIF2gamma-G domain and abolishes the ability of eIF5 to stimulate eIF2 GTPase activity in translation initiation complexes in vitro. Thus, rather than allosterically regulating eIF2gamma-G domain function via eIF2beta, our data support a model in which the GTPase-activating factor eIF5 and the guanine-nucleotide exchange factor eIF2B modulate eIF2 function through direct interactions with the eIF2gamma-G domain.
Highlights
The initiation of protein synthesis in eukaryotic cells requires the coordinated activity of at least 10 eukaryotic initiation factors,2 with several of the factors composed of multiple polypeptide chains
Direct Interaction of eIF5 and eIF2B⑀ with eIF2␥—To study the interaction of eIF2␥ with other translation initiation factors, we generated a fusion construct to overexpress in yeast cells GST fused to full-length (FL) eIF2␥
We showed that eIF5 and eIF2B⑀ directly interact with eIF2␥
Summary
The initiation of protein synthesis in eukaryotic cells requires the coordinated activity of at least 10 eukaryotic initiation factors (eIFs),2 with several of the factors composed of multiple polypeptide chains. The FL GST-eIF2␥ fusion protein readily interacted with the ␣ and  subunits of eIF2 (Fig. 2, lane 11), consistent with the idea that eIF2␥ is the keystone of the eIF2 complex [3].
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
