Abstract
Incorrect protein translation, caused by codon mismatch, is an important problem of living cells. In this work, a computational model was introduced to quantify the effects of codon mismatch and the model was used to study the protein translation of Saccharomyces cerevisiae. According to simulation results, the probability of codon mismatch will increase when the supply of amino acids is unbalanced, and the longer is the codon sequence, the larger is the probability for incorrect translation to occur, making the synthesis of long peptide chain difficult. By comparing to simulation results without codon mismatch effects taken into account, the fraction of mRNAs with bound ribosome decrease faster along the mRNAs, making the 5’ ramp phenomenon more obvious. It was also found in our work that the premature mechanism resulted from codon mismatch can reduce the proportion of incorrect translation when the amino acid supply is extremely unbalanced, which is one possible source of high fidelity protein synthesis after peptidyl transfer.
Highlights
Understanding of the gene translation process is important for human health[1,2,3], biotechnology [4,5,6] and evolution[3,4,7,8]
We modeled the stress of a particular amino acid by changing the abundance of its cognate tRNAs by 2x folds[14]
The second is incorrect translation production in which the peptide is synthesized with codon mismatch or is shorter than the correct peptide
Summary
Understanding of the gene translation process is important for human health[1,2,3], biotechnology [4,5,6] and evolution[3,4,7,8]. In recent years a number of technologies have been developed to characterize different features related to the gene translation and multiple roles of the coding sequence have been proposed. Recent studies suggested that the order of codons along the mRNA plays an important role in determining translation efficiency[4,9,10,11].
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