github link
Accession IconSRP149444

Regulation of Translation Elongation Revealed by Ribosome Profiling [Dataset_2]

Organism Icon Saccharomyces cerevisiae
Sample Icon 6 Downloadable Samples
Technology Badge IconIllumina HiSeq 2500

Submitter Supplied Information

Description
Ribosomes undergo substantial conformational changes during translation elongation to accommodate incoming aminoacyl-tRNAs and translocate along the mRNA template. We used multiple elongation inhibitors and chemical probing to define ribosome conformational states corresponding to different sized ribosome-protected mRNA fragments (RPFs) generated by ribosome profiling. We show using various genetic and environmental perturbations that the previously identified 20-22 nucleotide (nt) RPFs correspond predominantly to ribosomes in a pre-accommodation state with an open 40S ribosomal A site while the classical 27-29 nt fragments correspond to ribosomes in a pre-translocation state with an occupied 40S ribosomal A site. These distinct ribosome conformational states revealed by ribosome profiling are seen in all eukaryotes tested including fungi, worms and mammals. This high-resolution ribosome profiling approach reveals the anticipated Rck2-dependent inhibition of translocation through eEF2 phosphorylation during hyperosmotic stress. These same approaches reveal a strong translation elongation arrest during oxidative stress where the ribosomes are trapped in a pre-translocation state, but in this case the translational arrest is independent of Rck2-driven eEF2 phosphorylation. These results provide new insights and approaches for defining the molecular events that impact translation elongation throughout biology. Overall design: 6 samples are included for TIG lysate DMS-MaPseq.
PubMed ID
No associated PubMed ID
Publication Title
No associated publication
Total Samples
6
Submitter’s Institution
No associated institution
Authors
No associated authors
Alternate Accession IDs

Samples

Show of 0 Total Samples
Filter
Add/Remove
Accession Code
Title
Subject
Processing Information
Additional Metadata
No rows found
Loading...