Cellular Energy Regulates MRNA Translation and Degradation in a Codon-Specific Manner
MCML Authors
Pedro Tomaz da Silva
Julien Gagneur
Prof. Dr.
Principal Investigator
Abstract
Pedro Tomaz da Silva
Julien Gagneur
Prof. Dr.
Principal Investigator
Abstract
Background: Codon optimality is a major determinant of mRNA translation and degradation rates. However, whether and through which mechanisms its effects are regulated remains poorly understood.<br>Results: Here we show that codon optimality associates with up to 2-fold change in mRNA stability variations between human tissues, and that its effect is attenuated in tissues with high energy metabolism and amplifies with age. Biochemical modeling and perturbation data through oxygen deprivation and ATP synthesis inhibition reveal that cellular energy variations non-uniformly affect the decoding kinetics of different codons.<br>Conclusions: This new mechanism of codon effect regulation, independent of tRNA regulation, provides a fundamental mechanistic link between cellular energy metabolism and eukaryotic gene expression.
misc
Preprint
Apr. 2023Authors
P. T. da Silva • Y. Zhang • E. Theodorakis • L. D. Martens • V. A. Yépez • V. Pelechano • J. GagneurLinks
DOIResearch Area
BibTeXKey: SZT+23