Gene Regulation at the Single-Cell Level
California Institute of Technology · William Osler Health System · +1 more institution
Abstract
The quantitative relation between transcription factor concentrations and the rate of protein production from downstream genes is central to the function of genetic networks. Here we show that this relation, which we call the gene regulation function (GRF), fluctuates dynamically in individual living cells, thereby limiting the accuracy with which transcriptional genetic circuits can transfer signals. Using fluorescent reporter genes and fusion proteins, we characterized the bacteriophage lambda promoter P(R) in Escherichia coli. A novel technique based on binomial errors in protein partitioning enabled calibration of in vivo biochemical parameters in molecular units. We found that protein production rates…
Citation impact
- FWCI
- 31.08
- Percentile
- 100%
- References
- 29
Authors
5- NRNitzan RosenfeldCorresponding
California Institute of Technology, William Osler Health System, Weizmann Institute of Science
- JWJonathan W. Young
California Institute of Technology, William Osler Health System, Weizmann Institute of Science
- UAUri Alon
California Institute of Technology, William Osler Health System, Weizmann Institute of Science
- PSPeter S. SwainCorresponding
California Institute of Technology, William Osler Health System, Weizmann Institute of Science
- MBMichael B. ElowitzCorresponding
California Institute of Technology, William Osler Health System, Weizmann Institute of Science
Topics & keywords
- Gene
- Reporter gene
- Biology
- Function (biology)
- Escherichia coli
- Fusion gene
- Transcription (linguistics)
- Fusion protein