Journal ArticleDOI
Single-cell proteomic analysis of S. cerevisiae reveals the architecture of biological noise
John R. S. Newman,Sina Ghaemmaghami,Sina Ghaemmaghami,Jan Ihmels,David K. Breslow,Matthew Noble,Joseph L. DeRisi,Joseph L. DeRisi,Jonathan S. Weissman +8 more
TLDR
A strategy that pairs high-throughput flow cytometry and a library of GFP-tagged yeast strains to monitor rapidly and precisely protein levels at single-cell resolution is presented, revealing a remarkable structure to biological noise.Abstract:
A major goal of biology is to provide a quantitative description of cellular behaviour. This task, however, has been hampered by the difficulty in measuring protein abundances and their variation. Here we present a strategy that pairs high-throughput flow cytometry and a library of GFP-tagged yeast strains to monitor rapidly and precisely protein levels at single-cell resolution. Bulk protein abundance measurements of >2,500 proteins in rich and minimal media provide a detailed view of the cellular response to these conditions, and capture many changes not observed by DNA microarray analyses. Our single-cell data argue that noise in protein expression is dominated by the stochastic production/destruction of messenger RNAs. Beyond this global trend, there are dramatic protein-specific differences in noise that are strongly correlated with a protein's mode of transcription and its function. For example, proteins that respond to environmental changes are noisy whereas those involved in protein synthesis are quiet. Thus, these studies reveal a remarkable structure to biological noise and suggest that protein noise levels have been selected to reflect the costs and potential benefits of this variation.read more
Citations
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Journal ArticleDOI
Insights into the regulation of protein abundance from proteomic and transcriptomic analyses
TL;DR: Current understanding of the major factors regulating protein expression is summarized to demonstrate a substantial role for regulatory processes occurring after mRNA is made in controlling steady-state protein abundances.
Journal ArticleDOI
Nature, Nurture, or Chance: Stochastic Gene Expression and Its Consequences
TL;DR: Stochastic gene expression has important consequences for cellular function, being beneficial in some contexts and harmful in others, including the stress response, metabolism, development, the cell cycle, circadian rhythms, and aging.
Journal ArticleDOI
Quantifying E. coli proteome and transcriptome with single-molecule sensitivity in single cells.
Yuichi Taniguchi,Paul J. Choi,Gene-Wei Li,Huiyi Chen,Mohan Babu,Jeremy Hearn,Andrew Emili,X. Sunney Xie +7 more
TL;DR: System-wide analyses of protein and mRNA expression in individual cells with single-molecule sensitivity using a newly constructed yellow fluorescent protein fusion library for Escherichia coli found that almost all protein number distributions can be described by the gamma distribution with two fitting parameters which, at low expression levels, have clear physical interpretations as the transcription rate and protein burst size.
Journal ArticleDOI
Stochastic mRNA Synthesis in Mammalian Cells
TL;DR: The results demonstrate that gene expression in mammalian cells is subject to large, intrinsically random fluctuations and raise questions about how cells are able to function in the face of such noise.
Journal ArticleDOI
Correlation of mRNA and protein in complex biological samples
TL;DR: An overview of available methods for the identification and quantification of free and ribosome‐bound mRNA, protein abundances and individual protein turnover rates is given.
References
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