Add to ORKGGene expression in all organisms is controlled by cooperative interactions between DNA-bound transcription factors (TFs), but quantitatively measuring TF-DNA and TF-TF interactions remains difficult. Here we introduce a strategy for precisely measuring the Gibbs free energy of such interactions in living cells. This strategy centers on the measurement and modeling of ‘allelic manifolds’, a multidimensional generalization of the classical genetics concept of allelic series. Allelic manifolds are measured using reporter assays performed on strategically designed cis-regulatory sequences. Quantitative biophysical models are then fit to the resulting data. We used this strategy to study regulation by two Escherichia coliTFs, CRP and σ^(70) RNA ...
The ability to regulate gene expression is of central importance for the adaptability of living orga...
At the heart of gene regulation are Transcription Factors (TFs), proteins which bind to DNA in a seq...
Despite the central importance of transcriptional regulation in biology, it has proven difficult to ...
Gene expression in all organisms is controlled by cooperative interactions between DNA-bound transcr...
Gene expression in all organisms is controlled by cooperative interactions between DNA-bound transcr...
Despite the central importance of transcriptional regulation in biology, it has proven difficult to ...
A major goal of systems biology is to predict the function of biological networks. Although network ...
Recent decades have seen dramatic advances in our ability to make quantitative measurements of the l...
Understanding transcriptional regulation quantitatively is a crucial step towards uncovering and ult...
Gene expression is frequently regulated by multiple transcription factors (TFs). Thermostatistical m...
Transcriptional control is a key regulatory mechanism for cells to direct their destinies. A large n...
Transcriptional regulation of gene expression is one of the most ubiquitous processes in biology. Bu...
Understanding how transcriptional regulatory sequence maps to regulatory function remains a difficul...
A challenge in quantitative biology is to predict output patterns of gene expression from knowledge ...
The ability to regulate gene expression is of central importance for the adaptability of living orga...
At the heart of gene regulation are Transcription Factors (TFs), proteins which bind to DNA in a seq...
Despite the central importance of transcriptional regulation in biology, it has proven difficult to ...
Gene expression in all organisms is controlled by cooperative interactions between DNA-bound transcr...
Gene expression in all organisms is controlled by cooperative interactions between DNA-bound transcr...
Despite the central importance of transcriptional regulation in biology, it has proven difficult to ...
A major goal of systems biology is to predict the function of biological networks. Although network ...
Recent decades have seen dramatic advances in our ability to make quantitative measurements of the l...
Understanding transcriptional regulation quantitatively is a crucial step towards uncovering and ult...
Gene expression is frequently regulated by multiple transcription factors (TFs). Thermostatistical m...
Transcriptional control is a key regulatory mechanism for cells to direct their destinies. A large n...
Transcriptional regulation of gene expression is one of the most ubiquitous processes in biology. Bu...
Understanding how transcriptional regulatory sequence maps to regulatory function remains a difficul...
A challenge in quantitative biology is to predict output patterns of gene expression from knowledge ...
The ability to regulate gene expression is of central importance for the adaptability of living orga...
At the heart of gene regulation are Transcription Factors (TFs), proteins which bind to DNA in a seq...
Despite the central importance of transcriptional regulation in biology, it has proven difficult to ...