Litcius/Paper detail

Optimization of Ribosome Footprinting Conditions for Ribo-Seq in Human and Drosophila melanogaster Tissue Culture Cells

Katerina Douka, Michaela Agapiou, Isabel Birds, Julie L. Aspden

2022Frontiers in Molecular Biosciences20 citationsDOIOpen Access PDF

Abstract

Our understanding of mRNA translation and its regulation has been transformed by the development of ribosome profiling. This approach relies upon RNase footprinting of translating ribosomes in a precise manner to generate an accurate snapshot of ribosome positions with nucleotide resolution. Here we tested a variety of conditions, which contribute to the preciseness of ribosome footprinting and therefore the success of ribosome profiling. We found that NaCl concentration, RNaseI source, RNaseI amount, and temperature of footprinting all contributed to the quality of ribosome footprinting in human neuroblastoma SH-SY5Y cells. These ideal conditions for footprinting also improved footprint quality when used with Drosophila melanogaster S2 cells. Footprinting under the same conditions generated different footprints sizes and framing patterns in human and D. melanogaster cells. We also found that treatment of S2 cells with cycloheximide prior to footprinting impacted the distribution of footprints across ORFs, without affecting overall read length distribution and framing pattern, as previously found in other organisms. Together our results indicate that a variety of factors affect ribosome footprint quality and the nature of precise footprinting varies across species.

Topics & Concepts

FootprintingBiologyRibosome profilingEndoribonucleaseRibosome biogenesisDNA footprintingRibosomeDrosophila melanogasterGeneticsCell biologyComputational biologyRNase PRNAGenePromoterGene expressionTranscription factorRNA and protein synthesis mechanismsRNA modifications and cancerRNA Research and Splicing