Add to ORKGDespite the central importance of transcriptional regulation in biology, it has proven difficult to determine the regulatory mechanisms of individual genes, let alone entire gene networks. It is particularly difficult to decipher the biophysical mechanisms of transcriptional regulation in living cells and determine the energetic properties of binding sites for transcription factors and RNA polymerase. In this work, we present a strategy for dissecting transcriptional regulatory sequences using in vivo methods (massively parallel reporter assays) to formulate quantitative models that map a transcription factor binding site’s DNA sequence to transcription factor-DNA binding energy. We use these models to predict the binding energies of transc...
Any living organism contains a whole set of instructions encoded as genes on the DNA. This set of in...
Analysis of massively parallel reporter assays measuring the transcriptional activity of DNA sequenc...
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 ...
Despite the central importance of transcriptional regulation in biology, it has proven difficult to ...
Over the past decades DNA sequencing has become significantly cheaper and faster, which has enabled ...
Understanding how transcriptional regulatory sequence maps to regulatory function remains a difficul...
Transcription factor binding sites (TFBSs) are DNA sequences of 6 to 15 base pairs and interaction w...
Gene expression is regulated in response to metabolic necessities and environmental changes througho...
Despite the advent of high throughput genomics technology and the wealth of data characterizing tran...
Although the key promoter elements necessary to drive transcription in Escherichia coli have long be...
Despite the fact that each cell in an organism has the same genetic information, it is possible that...
DNA sequence and local chromatin landscape act jointly to determine transcription factor (TF) bindin...
© 2011 Dr. Geoffrey John MacintyreUnderstanding the molecular mechanisms governing transcriptional r...
Transcription is a fundamental and tightly regulated process in living cells and a key step in the e...
Any living organism contains a whole set of instructions encoded as genes on the DNA. This set of in...
Analysis of massively parallel reporter assays measuring the transcriptional activity of DNA sequenc...
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 ...
Despite the central importance of transcriptional regulation in biology, it has proven difficult to ...
Over the past decades DNA sequencing has become significantly cheaper and faster, which has enabled ...
Understanding how transcriptional regulatory sequence maps to regulatory function remains a difficul...
Transcription factor binding sites (TFBSs) are DNA sequences of 6 to 15 base pairs and interaction w...
Gene expression is regulated in response to metabolic necessities and environmental changes througho...
Despite the advent of high throughput genomics technology and the wealth of data characterizing tran...
Although the key promoter elements necessary to drive transcription in Escherichia coli have long be...
Despite the fact that each cell in an organism has the same genetic information, it is possible that...
DNA sequence and local chromatin landscape act jointly to determine transcription factor (TF) bindin...
© 2011 Dr. Geoffrey John MacintyreUnderstanding the molecular mechanisms governing transcriptional r...
Transcription is a fundamental and tightly regulated process in living cells and a key step in the e...
Any living organism contains a whole set of instructions encoded as genes on the DNA. This set of in...
Analysis of massively parallel reporter assays measuring the transcriptional activity of DNA sequenc...
Gene expression in all organisms is controlled by cooperative interactions between DNA-bound transcr...