Promoter sequence determines the relationship between expression level and noise
The ability of cells to accurately control gene expression levels in response to extracellular cues is limited by the inherently stochastic nature of transcriptional regulation. A change in transcription factor (TF) activity results in changes in the expression of its targets, but the way in which c...
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2013
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sg-ntu-dr.10356-1008472022-02-16T16:30:13Z Promoter sequence determines the relationship between expression level and noise Carey, Lucas B. van Dijk, David. Sloot, Peter M. A. Kaandorp, Jaap A. Segal, Eran. School of Computer Engineering DRNTU::Engineering::Computer science and engineering::Computer applications::Life and medical sciences The ability of cells to accurately control gene expression levels in response to extracellular cues is limited by the inherently stochastic nature of transcriptional regulation. A change in transcription factor (TF) activity results in changes in the expression of its targets, but the way in which cell-to-cell variability in expression (noise) changes as a function of TF activity, and whether targets of the same TF behave similarly, is not known. Here, we measure expression and noise as a function of TF activity for 16 native targets of the transcription factor Zap1 that are regulated by it through diverse mechanisms. For most activated and repressed Zap1 targets, noise decreases as expression increases. Kinetic modeling suggests that this is due to two distinct Zap1-mediated mechanisms that both change the frequency of transcriptional bursts. Notably, we found that another mechanism of repression by Zap1, which is encoded in the promoter DNA, likely decreases the size of transcriptional bursts, producing a unique transcriptional state characterized by low expression and low noise. In addition, we find that further reduction in noise is achieved when a single TF both activates and represses a single target gene. Our results suggest a global principle whereby at low TF concentrations, the dominant source of differences in expression between promoters stems from differences in burst frequency, whereas at high TF concentrations differences in burst size dominate. Taken together, we show that the precise amount by which noise changes with expression is specific to the regulatory mechanism of transcription and translation that acts at each gene. Published version 2013-04-29T03:35:05Z 2019-12-06T20:29:18Z 2013-04-29T03:35:05Z 2019-12-06T20:29:18Z 2013 2013 Journal Article Carey, L. B., van Dijk, D., Sloot, P. M. A., Kaandorp, J. A., & Segal, E. (2013). Promoter Sequence Determines the Relationship between Expression Level and Noise. PLoS Biology, 11(4), e1001528. 1545-7885 https://hdl.handle.net/10356/100847 http://hdl.handle.net/10220/9866 10.1371/journal.pbio.1001528 23565060 en PLoS biology © 2013 Carey et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. application/pdf |
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DRNTU::Engineering::Computer science and engineering::Computer applications::Life and medical sciences Carey, Lucas B. van Dijk, David. Sloot, Peter M. A. Kaandorp, Jaap A. Segal, Eran. Promoter sequence determines the relationship between expression level and noise |
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The ability of cells to accurately control gene expression levels in response to extracellular cues is limited by the inherently stochastic nature of transcriptional regulation. A change in transcription factor (TF) activity results in changes in the expression of its targets, but the way in which cell-to-cell variability in expression (noise) changes as a function of TF activity, and whether targets of the same TF behave similarly, is not known. Here, we measure expression and noise as a function of TF activity for 16 native targets of the transcription factor Zap1 that are regulated by it through diverse mechanisms. For most activated and repressed Zap1 targets, noise decreases as expression increases. Kinetic modeling suggests that this is due to two distinct Zap1-mediated mechanisms that both change the frequency of transcriptional bursts. Notably, we found that another mechanism of repression by Zap1, which is encoded in the promoter DNA, likely decreases the size of transcriptional bursts, producing a unique transcriptional state characterized by low expression and low noise. In addition, we find that further reduction in noise is achieved when a single TF both activates and represses a single target gene. Our results suggest a global principle whereby at low TF concentrations, the dominant source of differences in expression between promoters stems from differences in burst frequency, whereas at high TF concentrations differences in burst size dominate. Taken together, we show that the precise amount by which noise changes with expression is specific to the regulatory mechanism of transcription and translation that acts at each gene. |
| author2 |
School of Computer Engineering |
| author_facet |
School of Computer Engineering Carey, Lucas B. van Dijk, David. Sloot, Peter M. A. Kaandorp, Jaap A. Segal, Eran. |
| format |
Article |
| author |
Carey, Lucas B. van Dijk, David. Sloot, Peter M. A. Kaandorp, Jaap A. Segal, Eran. |
| author_sort |
Carey, Lucas B. |
| title |
Promoter sequence determines the relationship between expression level and noise |
| title_short |
Promoter sequence determines the relationship between expression level and noise |
| title_full |
Promoter sequence determines the relationship between expression level and noise |
| title_fullStr |
Promoter sequence determines the relationship between expression level and noise |
| title_full_unstemmed |
Promoter sequence determines the relationship between expression level and noise |
| title_sort |
promoter sequence determines the relationship between expression level and noise |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/100847 http://hdl.handle.net/10220/9866 |
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1725985688126488576 |