F.V. Murphy scite author profile

The crystal structure of the bacterial 70S ribosome refined to 2.8 angstrom resolution reveals atomic details of its interactions with messenger RNA (mRNA) and transfer RNA (tRNA). A metal ion stabilizes a kink in the mRNA that demarcates the boundary between A and P sites, which is potentially important to prevent slippage of mRNA. Metal ions also stabilize the intersubunit interface. The interactions of E-site tRNA with the 50S subunit have both similarities and differences compared to those in the archaeal ribosome. The structure also rationalizes much biochemical and genetic data on translation.

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Selection of tRNA by the Ribosome Requires a Transition from an Open to a Closed Form

Ogle

Murphy

Tarry

et al. 2002

Cell

613

796

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A structural and mechanistic explanation for the selection of tRNAs by the ribosome has been elusive. Here, we report crystal structures of the 30S ribosomal subunit with codon and near-cognate tRNA anticodon stem loops bound at the decoding center and compare affinities of equivalent complexes in solution. In ribosomal interactions with near-cognate tRNA, deviation from Watson-Crick geometry results in uncompensated desolvation of hydrogen-bonding partners at the codon-anticodon minor groove. As a result, the transition to a closed form of the 30S induced by cognate tRNA is unfavorable for near-cognate tRNA unless paromomycin induces part of the rearrangement. We conclude that stabilization of a closed 30S conformation is required for tRNA selection, and thereby structurally rationalize much previous data on translational fidelity.

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The Crystal Structure of the Ribosome Bound to EF-Tu and Aminoacyl-tRNA

Schmeing

Voorhees

Kelley

et al. 2009

Science

486

578

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The ribosome selects a correct tRNA for each amino acid added to the polypeptide chain, as directed by mRNA. Aminoacyl-tRNA is delivered to the ribosome by Elongation Factor-Tu (EFTu), which hydrolyzes GTP and releases tRNA in response to codon recognition. The signaling pathway that leads to GTP hydrolysis upon codon recognition is critical to accurate decoding. Here we present the crystal structure of the ribosome complexed with EF-Tu and aminoacyltRNA, refined to 3.6 Å resolution. The structure reveals details of the tRNA distortion that allows aminoacyl-tRNA to interact simultaneously with the decoding center of the 30S subunit and EFTu at the factor-binding site. A series of conformational changes in EF-Tu and aminoacyl-tRNA suggest a communication pathway between the decoding center and the GTPase center of EF-Tu.

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The role of modifications in codon discrimination by tRNALysUUU

Murphy

Ramakrishnan

Małkiewicz

et al. 2004

Nat Struct Mol Biol

320

308

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The natural modification of specific nucleosides in many tRNAs is essential during decoding of mRNA by the ribosome. For example, tRNA(Lys)(UUU) requires the modification N6-threonylcarbamoyladenosine at position 37 (t(6)A37), adjacent and 3' to the anticodon, to bind AAA in the A site of the ribosomal 30S subunit. Moreover, it can only bind both AAA and AAG lysine codons when doubly modified with t(6)A37 and either 5-methylaminomethyluridine or 2-thiouridine at the wobble position (mnm(5)U34 or s(2)U34). Here we report crystal structures of modified tRNA anticodon stem-loops bound to the 30S ribosomal subunit with lysine codons in the A site. These structures allow the rationalization of how modifications in the anticodon loop enable decoding of both lysine codons AAA and AAG.

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F.V. Murphy

Structure of the 70 S Ribosome Complexed with mRNA and tRNA

Selection of tRNA by the Ribosome Requires a Transition from an Open to a Closed Form

The Crystal Structure of the Ribosome Bound to EF-Tu and Aminoacyl-tRNA

The role of modifications in codon discrimination by tRNALysUUU

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