Add to ORKGWe study the elongation stage of mRNA translation in eukaryotes and find that, in contrast to the assumptions of previous models, both the supply and the demand for tRNA resources are important for determining elongation rates. We find that increasing the initiation rate of translation can lead to the depletion of some species of aa-tRNA, which in turn can lead to slow codons and queueing. Particularly striking ‘‘competition’ ’ effects are observed in simulations of multiple species of mRNA which are reliant on the same pool of tRNA resources. These simulations are based on a recent model of elongation which we use to study the translation of mRNA sequences from the Saccharomyces cerevisiae genome. This model includes the dynamics of the us...
Computational modelling of in vivo protein synthesis is highly complicated, as it requires the simul...
<div><p>Recent studies have demonstrated how the competition for the finite pool of available gene e...
While we have learned that mRNA sequence strongly influences translation and co-translational pathwa...
AbstractTranslation is a central cellular process and the complexity of its mechanism necessitates m...
SummaryDeep sequencing now provides detailed snapshots of ribosome occupancy on mRNAs. We leverage t...
Translation and mRNA degradation are two major processes in eukaryotic gene expression. They were pr...
In prokaryotes, transcription and translation are dynamically coupled, as the latter starts before t...
SummaryRibosomes elongate at a nonuniform rate during translation. Theoretical models and experiment...
The question of what governs the translation elongation rate in eukaryotes has not yet been complete...
Although sequencing of ribosome footprints has uncovered aspects of mRNA translation, the determinan...
Translation of mRNA into protein is a fundamental yet complex biological process with multiple facto...
The importance of mRNA translation models has been demonstrated across many fields of science and bi...
Ribosomes elongate at a nonuniform rate during translation. Theoretical models and experiments disag...
The synthesis of protein from messenger RNA during translation is a highly dynamic process that play...
Protein synthesis is one of the central elements in every living cell. For this process, the mRNAs c...
Computational modelling of in vivo protein synthesis is highly complicated, as it requires the simul...
<div><p>Recent studies have demonstrated how the competition for the finite pool of available gene e...
While we have learned that mRNA sequence strongly influences translation and co-translational pathwa...
AbstractTranslation is a central cellular process and the complexity of its mechanism necessitates m...
SummaryDeep sequencing now provides detailed snapshots of ribosome occupancy on mRNAs. We leverage t...
Translation and mRNA degradation are two major processes in eukaryotic gene expression. They were pr...
In prokaryotes, transcription and translation are dynamically coupled, as the latter starts before t...
SummaryRibosomes elongate at a nonuniform rate during translation. Theoretical models and experiment...
The question of what governs the translation elongation rate in eukaryotes has not yet been complete...
Although sequencing of ribosome footprints has uncovered aspects of mRNA translation, the determinan...
Translation of mRNA into protein is a fundamental yet complex biological process with multiple facto...
The importance of mRNA translation models has been demonstrated across many fields of science and bi...
Ribosomes elongate at a nonuniform rate during translation. Theoretical models and experiments disag...
The synthesis of protein from messenger RNA during translation is a highly dynamic process that play...
Protein synthesis is one of the central elements in every living cell. For this process, the mRNAs c...
Computational modelling of in vivo protein synthesis is highly complicated, as it requires the simul...
<div><p>Recent studies have demonstrated how the competition for the finite pool of available gene e...
While we have learned that mRNA sequence strongly influences translation and co-translational pathwa...