Release of initiation factors from 48S complexes during ribosomal subunit joining and the link between establishment of codon-anticodon base-pairing and hydrolysis of eIF2-bound GTP

Unbehaun, Anett; Borukhov, Sergei; Hellen, Christopher U.T.; Pestova, Tatyana V.

doi:10.1101/gad.1255704

Cited by 207 publications

(303 citation statements)

References 34 publications

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“…Similarly, human eIF3 complex lacking eIF3j and eIF3 subcomplexes consisting of eIF3abgi or only eIF3bgi also require eIF3j to stably associate with 40 S subunits (8,28). Here we also demonstrate that the isolated eIF3b-RRM requires eIF3j to bind stably to 40 S subunits (Fig.…”

Section: Eif3b-rrm Resembles Noncanonical Rrms Of the U2afsupporting

confidence: 48%

“…In accordance, high concentrations of salt disrupted the eIF3b-RRM⅐eIF3j complex during NMR titration experiments (data not shown). The eIF3j binding to the eIF3 complex displays a similar salt dependence and dissociates from the rest of eIF3 during sucrose density gradient centrifugation in buffer containing 400 mM KCl (28).…”

Section: Eif3b-rrm Resembles Noncanonical Rrms Of the U2afmentioning

confidence: 99%

“…Although eIF3j is a component of a binary eIF3⅐40 S complex, it is no longer associated with eIF3 and the 40 S subunit in the presence of mRNA as well as in 48 S complexes (4,28). In such ribosomal particles lacking eIF3j, interactions of eIF3a, eIF3b, and eIF3d with mRNA (28) might then instead support the stable association of eIF3 with the 40 S subunit and thereby replace the requirement of eIF3j for stable eIF3/40 S binding.…”

Section: Eif3b-rrm Resembles Noncanonical Rrms Of the U2afmentioning

confidence: 99%

“…Additionally, the yeast homologue, which shares 26% identity and 50% similarity with human eIF3b, also fails to bind RNA in vitro (27). Within 48 S complexes (28) or in binary internal ribosome entry site RNA⅐eIF3 complexes (29), RNA binding of mammalian full-length eIF3b has been evidenced by cross-linking to mRNA, indicating that eIF3b can interact with RNA only in the context of eIF3 complexes. Our data suggest that the ␤-sheet surface of the eIF3b-RRM is an unlikely candidate for mediating the aforementioned RNA cross-links.…”

Section: Eif3b-rrm Resembles Noncanonical Rrms Of the U2afmentioning

confidence: 99%

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Structure of eIF3b RNA Recognition Motif and Its Interaction with eIF3j

ElAntak¹,

Tzakos²,

Locker³

et al. 2007

Journal of Biological Chemistry

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Mammalian eIF3 is a 700-kDa multiprotein complex essential for initiation of protein synthesis in eukaryotic cells. It consists of 13 subunits (eIF3a to -m), among which eIF3b serves as a major scaffolding protein. Here we report the solution structure of the N-terminal RNA recognition motif of human eIF3b (eIF3b-RRM) determined by NMR spectroscopy. The structure reveals a noncanonical RRM with a negatively charged surface in the ␤-sheet area contradictory with potential RNA binding activity. Instead, eIF3j, which is required for stable 40 S ribosome binding of the eIF3 complex, specifically binds to the rear ␣-helices of the eIF3b-RRM, opposite to its ␤-sheet surface. Moreover, we identify that an N-terminal 69-amino acid peptide of eIF3j is sufficient for binding to eIF3b-RRM and that this interaction is essential for eIF3b-RRM recruitment to the 40 S ribosomal subunit. Our results provide the first structure of an important subdomain of a core eIF3 subunit and detailed insights into protein-protein interactions between two eIF3 subunits required for stable eIF3 recruitment to the 40 S subunit.

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Section: Eif3b-rrm Resembles Noncanonical Rrms Of the U2afsupporting

confidence: 48%

Section: Eif3b-rrm Resembles Noncanonical Rrms Of the U2afmentioning

confidence: 99%

Section: Eif3b-rrm Resembles Noncanonical Rrms Of the U2afmentioning

confidence: 99%

Section: Eif3b-rrm Resembles Noncanonical Rrms Of the U2afmentioning

confidence: 99%

See 2 more Smart Citations

Structure of eIF3b RNA Recognition Motif and Its Interaction with eIF3j

ElAntak¹,

Tzakos²,

Locker³

et al. 2007

Journal of Biological Chemistry

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“…In addition, the majority of eIF2 either dissociates from or repositions on the 48S complex following AUG codon recognition (32). Intriguingly, factors eIF3, eIF1, and eIF1A appear to be retained on the 48S complex following eIF2 release (38).…”

mentioning

confidence: 99%

Coupled Release of Eukaryotic Translation Initiation Factors 5B and 1A from 80S Ribosomes following Subunit Joining

Fringer

Acker

Fekete

et al. 2007

Molecular and Cellular Biology

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The translation initiation GTPase eukaryotic translation initiation factor 5B (eIF5B) binds to the factor eIF1A and catalyzes ribosomal subunit joining in vitro. We show that rapid depletion of eIF5B in Saccharomyces cerevisiae results in the accumulation of eIF1A and mRNA on 40S subunits in vivo, consistent with a defect in subunit joining. Substituting Ala for the last five residues in eIF1A (eIF1A-5A) impairs eIF5B binding to eIF1A in cell extracts and to 40S complexes in vivo. Consistently, overexpression of eIF5B suppresses the growth and translation initiation defects in yeast expressing eIF1A-5A, indicating that eIF1A helps recruit eIF5B to the 40S subunit prior to subunit joining. The GTPase-deficient eIF5B-T439A mutant accumulated on 80S complexes in vivo and was retained along with eIF1A on 80S complexes formed in vitro. Likewise, eIF5B and eIF1A remained associated with 80S complexes formed in the presence of nonhydrolyzable GDPNP, whereas these factors were released from the 80S complexes in assays containing GTP. We propose that eIF1A facilitates the binding of eIF5B to the 40S subunit to promote subunit joining. Following 80S complex formation, GTP hydrolysis by eIF5B enables the release of both eIF5B and eIF1A, and the ribosome enters the elongation phase of protein synthesis.The initiation of protein synthesis in eukaryotes is a complex series of events orchestrated by initiation factors (eIFs). In vitro studies using purified translation initiation factors have led to the elucidation of the translation initiation pathway in which the different factors associate with the 40S ribosomal subunit and guide the binding of MettRNA i Met and mRNA. While the essential in vitro functions of the different factors are well established, the precise timing of factor binding to and release from the ribosome is less well understood. Moreover, not all of the in vitrodefined functions of the factors have been confirmed in vivo. The first step in translation initiation involves the binding of factor eIF2 to GTP and Met-tRNA i Met forming a ternary complex. The ternary complex along with factors eIF1, eIF1A, eIF3, and eIF5 binds to the 40S ribosome, forming the 43S complex (reviewed in reference 16). The 43S complex then binds to an mRNA near the 5Ј cap, forming a 48S complex that scans along the mRNA in a 3Ј direction in search of an AUG start codon. In the 48S complex, some of the eIF2-GTP is hydrolyzed to eIF2-GDP ϩ P i (2). Upon AUG codon recognition, GTP hydrolysis is completed, and P i is released, converting the 48S complex from an open to a closed complex with Met-tRNA i Met in the P site of the 40S subunit (29). The release of P i from the 48S complex appears to be coupled with displacement of eIF1 from its binding site near the P site (2,22). In addition, the majority of eIF2 either dissociates from or repositions on the 48S complex following AUG codon recognition (32). Intriguingly, factors eIF3, eIF1, and eIF1A appear to be retained on the 48S complex following eIF2 release (38

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Endoplasmic reticulum

Dashek

2016

Plant Cells and Their Organelles

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Release of initiation factors from 48S complexes during ribosomal subunit joining and the link between establishment of codon-anticodon base-pairing and hydrolysis of eIF2-bound GTP

Cited by 207 publications

References 34 publications

Structure of eIF3b RNA Recognition Motif and Its Interaction with eIF3j

Structure of eIF3b RNA Recognition Motif and Its Interaction with eIF3j

Coupled Release of Eukaryotic Translation Initiation Factors 5B and 1A from 80S Ribosomes following Subunit Joining

Endoplasmic reticulum

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