RT Journal Article
SR Electronic
T1 The optimization of mRNA expression level by its intrinsic properties—insights from codon usage pattern and structural stability of mRNA
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 202200
DO 10.1101/202200
A1 Manish P Victor
A1 Debarun Acharya
A1 Tina Begum
A1 Tapash C Ghosh
YR 2017
UL http://biorxiv.org/content/early/2017/10/12/202200.abstract
AB The deviation from the uniform usage of synonymous codons is termed codon usage bias. A lot has been explained from the translational viewpoint for the observed phenomenon. To understand codon usage bias from the transcriptional perspective, we present here a holistic picture of this phenomenon in Saccharomyces cerevisiae, using both wild type and computationally mutated mRNAs. Although in wild type, both codon usage bias and mRNA stability positively regulate the gene (mRNA) expression level and are positively correlated with each other, any deviation from natural situation breaks such equilibrium. Computational examination of mRNA sequences with different sets of synonymous codon composition reveals that in mutated condition, the mRNA expression becomes reduced. Furthermore, constraining codon usage pattern to wild type and carrying out randomization of codons resulted in less stable mRNA. Further, we realized a Boolean Expression explaining the gene expression under various conditions of bias and mRNA stability. These studies suggest that selection of codons is favored for regulation of gene expression through potential formation of messenger RNA structures which contribute to folding stability. The naturally occurring codon composition is responsible for optimization of gene expression, and under such composition, the mRNA structure having highest stability is selected by nature.