Add to ORKGEngineering complex genetic functions in mammalian cells will require predictive models of gene regulation. Since gene expression is stochastic, leading to cell-to-cell heterogeneity, these models depend on single-cell measurements. Here, we summarize recent microscopy and sequencing-based single-cell measurements of transcription and its chromatin-based regulation. Then, we describe synthetic biology methods for manipulating chromatin, and highlight how they could be coupled to single-cell measurements. We discuss theoretical models that connect some chromatin inputs to transcriptional outputs. Finally, we point out the connections between the models that would allow us to integrate them into one global input-output gene regulatory functio...
Introduction Whether one considers a single cell or a multicellular organism, a complex and precise...
Chromatin accessibility provides key regulation in defining cell identity as it exhibits control ove...
Gene expression is a tightly controlled process in all cells and at all stages of life. Expressing ...
Engineering complex genetic functions in mammalian cells will require predictive models of gene regu...
Gene regulation takes many forms and is responsible for phenotypes at the scale of individual molecu...
SummaryThe transcription of genomic information in eukaryotes is regulated in large part by chromati...
Recent advancements in single-cell and single-molecule imaging technologies have resolved biological...
How distinct transcriptional programs are enacted to generate cellular heterogeneity and plasticity,...
Thesis: S.M., Massachusetts Institute of Technology, Department of Biology, 2016.This electronic ver...
Traditional gene expression studies have largely ignored cell-to-cell variability in transcription. ...
Recently, major progress has been made to develop computational models to predict and explain the me...
The identity of each cell in the human body is established and maintained through distinct gene expr...
Regulatory relationships between transcription factors (TFs) and their target genes lie at the heart...
Much of biological complexity is achieved through regulated gene expression. In eukaryotes the rst s...
The quantitative relation between transcription factor concentrations and the rate of protein produc...
Introduction Whether one considers a single cell or a multicellular organism, a complex and precise...
Chromatin accessibility provides key regulation in defining cell identity as it exhibits control ove...
Gene expression is a tightly controlled process in all cells and at all stages of life. Expressing ...
Engineering complex genetic functions in mammalian cells will require predictive models of gene regu...
Gene regulation takes many forms and is responsible for phenotypes at the scale of individual molecu...
SummaryThe transcription of genomic information in eukaryotes is regulated in large part by chromati...
Recent advancements in single-cell and single-molecule imaging technologies have resolved biological...
How distinct transcriptional programs are enacted to generate cellular heterogeneity and plasticity,...
Thesis: S.M., Massachusetts Institute of Technology, Department of Biology, 2016.This electronic ver...
Traditional gene expression studies have largely ignored cell-to-cell variability in transcription. ...
Recently, major progress has been made to develop computational models to predict and explain the me...
The identity of each cell in the human body is established and maintained through distinct gene expr...
Regulatory relationships between transcription factors (TFs) and their target genes lie at the heart...
Much of biological complexity is achieved through regulated gene expression. In eukaryotes the rst s...
The quantitative relation between transcription factor concentrations and the rate of protein produc...
Introduction Whether one considers a single cell or a multicellular organism, a complex and precise...
Chromatin accessibility provides key regulation in defining cell identity as it exhibits control ove...
Gene expression is a tightly controlled process in all cells and at all stages of life. Expressing ...