High-Precision Analysis of Translational Pausing by Ribosome Profiling in Bacteria Lacking EFP

Woolstenhulme, Christopher J.; Guydosh, Nicholas R.; Green, Rachel; Buskirk, Allen R.

doi:10.1016/j.celrep.2015.03.014

Cited by 214 publications

(365 citation statements)

References 39 publications

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“…The residue at the 3ʹ end of the mRNA exiting the ribosome is deduced by the cDNA length that was limited by the clash between the reserve transcriptase and the ribosome. The ribosome profiling method maps ribosome-covered mRNA with high throughput sequencing, which reveals the global ribosome distribution but lacks single codon precision [7]. Among indirect translocation assays, the tandem LC/MS/MS analysis of oligopeptide composition deduces the ribosome reading frame based on the synthesized peptide [8].…”

Section: Introductionmentioning

confidence: 99%

Dual DNA rulers reveal an ‘mRNA looping’ intermediate state during ribosome translocation

Yin

Wang

2018

RNA Biology

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The precise 3-nucleotide movement of mRNA is critical for translation fidelity. One mRNA translocation error propagates to all of the following codons, which is detrimental to the cell. However, none of the current methods can reveal the mRNA dynamics near the ribosome entry site, which limits the understanding of this important issue. We have developed an assay of dual DNA rulers that provides such capability. By uniquely probing both the 3ʹ- and 5ʹ-ends of mRNA, we observed an antibiotic-trapped intermediate state that is consistent with a ribosomal conformation containing mRNA asymmetric partial displacements at its entry and exit sites. Based on the available ribosome structures and computational simulations, we proposed a ‘looped’ mRNA conformation, which suggested a stepwise ‘inchworm’ mechanism for ribosomal translocation. The same ‘looped’ intermediate state identified with the dual rulers persists with a ‘-1’ frameshifting motif, indicating that the branching point of normal and frameshifting translocations occurs at a later stage of translocation.

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Section: Introductionmentioning

confidence: 99%

Dual DNA rulers reveal an ‘mRNA looping’ intermediate state during ribosome translocation

Yin

Wang

2018

RNA Biology

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“…A disadvantage of MNase is its preferential cleavage at A or T nucleotides (Dingwall et al, 1981) and consequently, the MNase-generated ribosome footprints might be enriched in A or T nucleotides at their 5′ ends. Compared to fragments derived from yeast lysates treated with RNase I, the MNase-generated footprints are more heterogeneous in length (Becker et al, 2013) due to steric effects and less precise 5′ cleavage (Woolstenhulme et al, 2015). In contrast, MNase cleaves precisely at the 3′ end contour of the ribosome, thus the calibration of the reads in bacterial system should be preferably done using the 3′ ends of the reads (Woolstenhulme et al, 2015) (see section 'Analysis of the sequencing data').…”

Section: Nucleolytic Generation Of Ribosomal Footprintsmentioning

confidence: 99%

“…Compared to fragments derived from yeast lysates treated with RNase I, the MNase-generated footprints are more heterogeneous in length (Becker et al, 2013) due to steric effects and less precise 5′ cleavage (Woolstenhulme et al, 2015). In contrast, MNase cleaves precisely at the 3′ end contour of the ribosome, thus the calibration of the reads in bacterial system should be preferably done using the 3′ ends of the reads (Woolstenhulme et al, 2015) (see section 'Analysis of the sequencing data'). RNase I cleavages are precise at both 5′ and 3′ ends, enabling calibration using both termini.…”

Section: Nucleolytic Generation Of Ribosomal Footprintsmentioning

confidence: 99%

“…Pulverized bacteria or monocellular eukaryotes are homogenized in a mill with liquid nitrogen (Oh et al, 2011;Guydosh and Green, 2014;Woolstenhulme et al, 2015). This method is transferrable to any cell type and frozen tissue and should be the preferred lysis approach as it allows treatment of the sample at very low temperatures.…”

Section: Cell Lysismentioning

confidence: 99%

“…During the homogenization, local temperature fluctuations in the sample should be avoided by careful choice of the conditions, i.e. short homogenization pulses and pre-cooling the grinder jar before and after each homogenization cycle (Oh et al, 2011;Guydosh and Green, 2014;Woolstenhulme et al, 2015).…”

Section: Cell Lysismentioning

confidence: 99%

See 2 more Smart Citations

Mapping the non-standardized biases of ribosome profiling

Bartholomäus

Campo

Ignatova

2016

Biological Chemistry

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Ribosome profiling is a new emerging technology that uses massively parallel amplification of ribosomeprotected fragments and next-generation sequencing to monitor translation in vivo with codon resolution. Studies using this approach provide insightful views on the regulation of translation on a global cell-wide level. In this review, we compare different experimental set-ups and current protocols for sequencing data analysis. Specifically, we review the pitfalls at some experimental steps and highlight the importance of standardized protocol for sample preparation and data processing pipeline, at least for mapping and normalization.

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The GWIPS‐viz Browser

Kiniry

Michel

Baranov

2018

CP in Bioinformatics

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GWIPS-viz is a publicly available browser that provides Genome Wide Information on Protein Synthesis through the visualization of ribosome profiling data. Ribosome profiling (Ribo-seq) is a high-throughput technique which isolates fragments of messenger RNA that are protected by the ribosome. The alignment of the ribosome-protected fragments or footprint sequences to the corresponding reference genome and their visualization using GWIPS-viz allows for unique insights into the genome loci that are expressed as potentially translated RNA. The GWIPS-viz browser hosts both Ribo-seq data and corresponding mRNA-seq data from publicly available studies across a number of genomes, avoiding the need for computational processing on the user side. Since its initial publication in 2014, over 1885 tracks have been produced across 24 genomes. This unit describes the navigation of the GWIPS-viz genome browser, the uploading of custom tracks, and the downloading of the Ribo-seq/mRNA-seq alignment data. © 2018 by John Wiley & Sons, Inc.

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High-Precision Analysis of Translational Pausing by Ribosome Profiling in Bacteria Lacking EFP

Cited by 214 publications

References 39 publications

Dual DNA rulers reveal an ‘mRNA looping’ intermediate state during ribosome translocation

Dual DNA rulers reveal an ‘mRNA looping’ intermediate state during ribosome translocation

Mapping the non-standardized biases of ribosome profiling

The GWIPS‐viz Browser

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