Mikael Holm scite author profile

Peptide-chain elongation during protein synthesis entails sequential aminoacyl-tRNA selection and translocation reactions that proceed rapidly (2–20 per second) and with a low error rate (around 10−3 to 10−5 at each step) over thousands of cycles1. The cadence and fidelity of ribosome transit through mRNA templates in discrete codon increments is a paradigm for movement in biological systems that must hold for diverse mRNA and tRNA substrates across domains of life. Here we use single-molecule fluorescence methods to guide the capture of structures of early translocation events on the bacterial ribosome. Our findings reveal that the bacterial GTPase elongation factor G specifically engages spontaneously achieved ribosome conformations while in an active, GTP-bound conformation to unlock and initiate peptidyl-tRNA translocation. These findings suggest that processes intrinsic to the pre-translocation ribosome complex can regulate the rate of protein synthesis, and that energy expenditure is used later in the translocation mechanism than previously proposed.

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Comprehensive Analysis of Stop Codon Usage in Bacteria and Its Correlation with Release Factor Abundance

Korkmaz

Holm

Wiens

et al. 2014

Journal of Biological Chemistry

101

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Background: Stop codon frequencies in 4684 bacterial genomes are analyzed. Results: With increasing genomic GC content, TAA% decreases, and TGA% increases reciprocally, but TAG% remains almost unchanged (ϳ20%). The TAG:TGA ratio matches well with the RF1:RF2 ratio. Conclusion: TAG is the minor stop codon, and expression of genes with TAG is correlated with the RF1 level. Significance: Our work establishes the correlation between stop codon frequency and RF1/RF2 abundance.

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tRNA Translocation by the Eukaryotic 80S Ribosome and the Impact of GTP Hydrolysis

et al. 2018

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SUMMARY Translocation moves the tRNA2•mRNA module directionally through the ribosome during the elongation phase of protein synthesis. Although translocation is known to entail large conformational changes within both the ribosome and tRNA substrates, the orchestrated events that ensure the speed and fidelity of this critical aspect of the protein synthesis mechanism have not been fully elucidated. Here, we present three high-resolution structures of intermediates of translocation on the mammalian ribosome where, in contrast to bacteria, ribosomal complexes containing the translocase eEF2 and the complete tRNA2•mRNA module are trapped by the non-hydrolyzable GTP analog GMPPNP. Consistent with the observed structures, single-molecule imaging revealed that GTP hydrolysis principally facilitates rate-limiting, final steps of translocation, which are required for factor dissociation and which are differentially regulated in bacterial and mammalian systems by the rates of deacyl-tRNA dissociation from the E site.

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A single H/ACA small nucleolar RNA mediates tumor suppression downstream of oncogenic RAS

et al. 2019

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Small nucleolar RNAs (snoRNAs) are a diverse group of non-coding RNAs that direct chemical modifications at specific residues on other RNA molecules, primarily on ribosomal RNA (rRNA). SnoRNAs are altered in several cancers; however, their role in cell homeostasis as well as in cellular transformation remains poorly explored. Here, we show that specific subsets of snoRNAs are differentially regulated during the earliest cellular response to oncogenic RASG12V expression. We describe a novel function for one H/ACA snoRNA, SNORA24, which guides two pseudouridine modifications within the small ribosomal subunit, in RAS-induced senescence in vivo. We find that in mouse models, loss of Snora24 cooperates with RASG12V to promote the development of liver cancer that closely resembles human steatohepatitic hepatocellular carcinoma (HCC). From a clinical perspective, we further show that human HCCs with low SNORA24 expression display increased lipid content and are associated with poor patient survival. We next asked whether ribosomes lacking SNORA24-guided pseudouridine modifications on 18S rRNA have alterations in their biophysical properties. Single-molecule Fluorescence Resonance Energy Transfer (FRET) analyses revealed that these ribosomes exhibit perturbations in aminoacyl-transfer RNA (aa-tRNA) selection and altered pre-translocation ribosome complex dynamics. Furthermore, we find that HCC cells lacking SNORA24-guided pseudouridine modifications have increased translational miscoding and stop codon readthrough frequencies. These findings highlight a role for specific snoRNAs in safeguarding against oncogenic insult and demonstrate a functional link between H/ACA snoRNAs regulated by RAS and the biophysical properties of ribosomes in cancer.

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Fusidic Acid Targets Elongation Factor G in Several Stages of Translocation on the Bacterial Ribosome

Borg

Holm

Shiroyama

et al. 2015

Journal of Biological Chemistry

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Background: FA inhibits ribosomal elongation and recycling. Results: The mechanism of FA inhibition of peptide elongation was determined. Conclusion: FA acts as a strong inhibitor by targeting several EF-G-containing states of the peptide elongation cycle. Significance: This study places FA-stalled ribosomal structures in a functional context and enables in vivo modeling of FA action. Techniques for studying slow inhibitors were developed.

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Mikael Holm

Structural basis of early translocation events on the ribosome

Comprehensive Analysis of Stop Codon Usage in Bacteria and Its Correlation with Release Factor Abundance

tRNA Translocation by the Eukaryotic 80S Ribosome and the Impact of GTP Hydrolysis

A single H/ACA small nucleolar RNA mediates tumor suppression downstream of oncogenic RAS

Fusidic Acid Targets Elongation Factor G in Several Stages of Translocation on the Bacterial Ribosome

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