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Global quantification of mammalian gene expression control

2011; Nature Portfolio; Volume: 473; Issue: 7347 Linguagem: Inglês

10.1038/nature10098

1476-4687

Björn Schwanhäußer, Dorothea Busse, Na Li, Gunnar Dittmar, Johannes Schuchhardt, Jana Wolf, Wei Chen, Matthias Selbach,

RNA and protein synthesis mechanisms

Gene expression is a multistep process that involves the transcription, translation and turnover of messenger RNAs and proteins. Although it is one of the most fundamental processes of life, the entire cascade has never been quantified on a genome-wide scale. Here we simultaneously measured absolute mRNA and protein abundance and turnover by parallel metabolic pulse labelling for more than 5,000 genes in mammalian cells. Whereas mRNA and protein levels correlated better than previously thought, corresponding half-lives showed no correlation. Using a quantitative model we have obtained the first genome-scale prediction of synthesis rates of mRNAs and proteins. We find that the cellular abundance of proteins is predominantly controlled at the level of translation. Genes with similar combinations of mRNA and protein stability shared functional properties, indicating that half-lives evolved under energetic and dynamic constraints. Quantitative information about all stages of gene expression provides a rich resource and helps to provide a greater understanding of the underlying design principles. Gene expression is a multistep process that involves transcription, translation and turnover of messenger RNAs (mRNAs) and proteins, but little is known about how the combined effect of these events shapes gene expression. Schwanhäusser et al. have now quantified gene expression in mammalian cells by simultaneously measuring protein and mRNA abundance and turnover by parallel metabolic pulse labelling for more than 5,000 genes. A model is used to predict synthesis rates of mRNAs and proteins. The cellular abundance of proteins seems to be predominantly controlled at the level of translation.