Elliot Williams scite author profile

Elliot Williams

4Publications

83Citation Statements Received

107Citation Statements Given

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Wesleyan University, United States Department of Veterans Affairs

Publications

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A Ribosome Interaction Surface Sensitive to mRNA GCN Periodicity

et al. 2020

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A longstanding challenge is to understand how ribosomes parse mRNA open reading frames (ORFs). Significantly, GCN codons are over-represented in the initial codons of ORFs of prokaryote and eukaryote mRNAs. We describe a ribosome rRNA-protein surface that interacts with an mRNA GCN codon when next in line for the ribosome A-site. The interaction surface is comprised of the edges of two stacked rRNA bases: the Watson–Crick edge of 16S/18S rRNA C1054 and the adjacent Hoogsteen edge of A1196 (Escherichia coli 16S rRNA numbering). Also part of the interaction surface, the planar guanidinium group of a conserved Arginine (R146 of yeast ribosomal protein Rps3) is stacked adjacent to A1196. On its other side, the interaction surface is anchored to the ribosome A-site through base stacking of C1054 with the wobble anticodon base of the A-site tRNA. Using molecular dynamics simulations of a 495-residue subsystem of translocating ribosomes, we observed base pairing of C1054 to nucleotide G at position 1 of the next-in-line codon, consistent with previous cryo-EM observations, and hydrogen bonding of A1196 and R146 to C at position 2. Hydrogen bonding to both of these codon positions is significantly weakened when C at position 2 is changed to G, A or U. These sequence-sensitive mRNA-ribosome interactions at the C1054-A1196-R146 (CAR) surface potentially contribute to the GCN-mediated regulation of protein translation.

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A Ribosome Interaction Surface Sensitive to mRNA GCN Periodicity

Scopino

Williams

Elsayed

et al. 2020

Preprint

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GCN codons are over-represented in initial codons of ORFs of prokaryote and eukaryote mRNAs. We describe a ribosome rRNA-protein surface that interacts with an mRNA GCN codon when next-in-line for the ribosome A site. The interaction surface is comprised of the edges of two stacked rRNA bases: the Watson-Crick edge of 16S/18S rRNA C1054 and adjacent Hoogsteen edge of A1196 (Escherichia coli 16S rRNA numbering). Also part of the interaction surface, the planar guanidinium group of a conserved Arginine (R146 of yeast ribosomal protein Rps3) is stacked adjacent to A1196. On its other side, the interaction surface is anchored to the ribosome A site through base stacking of C1054 with the wobble anticodon base of the A-site tRNA. Using Molecular Dynamics simulations of a 495-residue subsystem of translocating ribosomes, we observe base pairing of C1054 to nucleotide G at position 1 of the next-in-line codon, consistent with previous cryo-EM observations, and hydrogen bonding of A1196 and R146 to C at position 2. Hydrogen bonding to both of these codon positions is significantly weakened when C at position 2 is changed to G, A or U. These sequence-sensitive mRNAribosome interactions at the C1054-A1196-R146 (CAR) surface potentially contribute to GCNmediated regulation of protein translation.Video S1. Example of neutral dynamics for translocation stage II; +1 codon GCU (mp4) Video S2. Example of neutral dynamics for translocation stage II; +1 codon GGU (mp4) AUTHOR INFORMATION

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Molecular Dynamics and Computational Analysis of Potential 18S rRNA-mRNA Interactions During Ribosomal Translocation

Williams¹

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Neuropsychological deficits following minor head injury: Scientific fact or litigious fiction

Schenkenberg

Williams

1986

Archives of Clinical Neuropsychology

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Elliot Williams

A Ribosome Interaction Surface Sensitive to mRNA GCN Periodicity

A Ribosome Interaction Surface Sensitive to mRNA GCN Periodicity

Molecular Dynamics and Computational Analysis of Potential 18S rRNA-mRNA Interactions During Ribosomal Translocation

Neuropsychological deficits following minor head injury: Scientific fact or litigious fiction

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