Motivation: In the noisy cellular environment, stochastic fluctuations at the molecular level manifest as cell-cell variability at the population level that is quantifiable using high-throughput single-cell measurements. Such variability is rich with information about the cell's underlying gene regulatory networks, their architecture and the parameters of the biochemical reactions at their core. Results: We report a novel method, called Inference for Networks of Stochastic Interactions among Genes using High-Throughput data (INSIGHT), for systematically combining high-throughput time-course flow cytometry measurements with computer-generated stochastic simulations of candidate gene network models to infer the network's stochastic model and ...
Cellular decision making is accomplished by complex networks, the structure of which has traditional...
The signal within the noise: efficient inference of stochastic gene regulation models using fluoresc...
The cellular environment is abuzz with noise originating from the inherent random motion of reacting...
Abstract Gene networks arise due to the interaction of genes through their protein products. Modelin...
Cells are governed by complex and multi-layered gene regulatory networks, which orchestrate the deve...
Cellular decision making is accomplished by complex networks, the structure of which has traditional...
Modeling stochasticity in gene regulatory networks is an important and complex problem in molecular ...
Motivation: Identification of regulatory networks is typically based on deterministic models of gene...
The well-known issue of reconstructing regulatory networks from gene expression measurements has bee...
International audienceThe recent development of single-cell transcriptomics has enabled gene express...
Background Gene expression is known to be an intrinsically stochastic process which can involve sing...
Cellular functions are controlled by genetic regulatory networks called gene circuits. Recently, the...
We studied the impact of stochasticity on gene regulation networks, using the cell-to-cell communica...
Recent advances in gene-expression profiling technologies provide large amounts of gene expression d...
Cells live with fluctuations arising from various sources and occurring at a broad spectrum of scale...
Cellular decision making is accomplished by complex networks, the structure of which has traditional...
The signal within the noise: efficient inference of stochastic gene regulation models using fluoresc...
The cellular environment is abuzz with noise originating from the inherent random motion of reacting...
Abstract Gene networks arise due to the interaction of genes through their protein products. Modelin...
Cells are governed by complex and multi-layered gene regulatory networks, which orchestrate the deve...
Cellular decision making is accomplished by complex networks, the structure of which has traditional...
Modeling stochasticity in gene regulatory networks is an important and complex problem in molecular ...
Motivation: Identification of regulatory networks is typically based on deterministic models of gene...
The well-known issue of reconstructing regulatory networks from gene expression measurements has bee...
International audienceThe recent development of single-cell transcriptomics has enabled gene express...
Background Gene expression is known to be an intrinsically stochastic process which can involve sing...
Cellular functions are controlled by genetic regulatory networks called gene circuits. Recently, the...
We studied the impact of stochasticity on gene regulation networks, using the cell-to-cell communica...
Recent advances in gene-expression profiling technologies provide large amounts of gene expression d...
Cells live with fluctuations arising from various sources and occurring at a broad spectrum of scale...
Cellular decision making is accomplished by complex networks, the structure of which has traditional...
The signal within the noise: efficient inference of stochastic gene regulation models using fluoresc...
The cellular environment is abuzz with noise originating from the inherent random motion of reacting...