Abstract Single-cell technologies enable the dynamic analyses of cell fate mapping. However, capturing the gene regulatory relationships and identifying the driver factors that control cell fate decisions are still challenging. We present CEFCON, a network-based framework that first uses a graph neural network with attention mechanism to infer a cell-lineage-specific gene regulatory network (GRN) from single-cell RNA-sequencing data, and then models cell fate dynamics through network control theory to identify driver regulators and the associated gene modules, revealing their critical biological processes related to cell states. Extensive benchmarking tests consistently demonstrated the superiority of CEFCON in GRN construction, driver regu...
The molecular regulatory network underlying stem cell pluripotency has been intensively studied, and...
BACKGROUND: Reconstruction of executable mechanistic models from single-cell gene expression data re...
A major challenge for stem cell engineering is achieving a holistic understanding of the molecular n...
Motivation: Transcriptional regulatory networks controlling cell fate decisions in mammalian embryon...
Single-cell RNA-seq will allow building cell atlases for any tissue in any species, and studying the...
The molecular regulatory network underlying stem cell pluripotency has been intensively studied, and...
Cellular differentiation, from pluripotent stem cells to the diverse cell types in our body, is guid...
Abstract Single-cell RNA-seq allows building cell atlases of any given tissue and infer the dynamics...
The molecular regulatory network underlying stem cell pluripotency has been intensively studied, and...
The molecular regulatory network underlying stem cell pluripotency has been intensively studied, and...
SummaryIdentification of cell-fate determinants for directing stem cell differentiation remains a ch...
Identification of cell-fate determinants for directing stem cell differentiation remains a challenge...
Cellular differentiation, from pluripotent stem cells to the diverse cell types in our body, is guid...
Thesis (Ph.D.)--University of Washington, 2018Development is commonly regarded as a hierarchical bra...
Transcriptional mechanisms of cell fate decisions revealed by single cell expression profiling Victo...
The molecular regulatory network underlying stem cell pluripotency has been intensively studied, and...
BACKGROUND: Reconstruction of executable mechanistic models from single-cell gene expression data re...
A major challenge for stem cell engineering is achieving a holistic understanding of the molecular n...
Motivation: Transcriptional regulatory networks controlling cell fate decisions in mammalian embryon...
Single-cell RNA-seq will allow building cell atlases for any tissue in any species, and studying the...
The molecular regulatory network underlying stem cell pluripotency has been intensively studied, and...
Cellular differentiation, from pluripotent stem cells to the diverse cell types in our body, is guid...
Abstract Single-cell RNA-seq allows building cell atlases of any given tissue and infer the dynamics...
The molecular regulatory network underlying stem cell pluripotency has been intensively studied, and...
The molecular regulatory network underlying stem cell pluripotency has been intensively studied, and...
SummaryIdentification of cell-fate determinants for directing stem cell differentiation remains a ch...
Identification of cell-fate determinants for directing stem cell differentiation remains a challenge...
Cellular differentiation, from pluripotent stem cells to the diverse cell types in our body, is guid...
Thesis (Ph.D.)--University of Washington, 2018Development is commonly regarded as a hierarchical bra...
Transcriptional mechanisms of cell fate decisions revealed by single cell expression profiling Victo...
The molecular regulatory network underlying stem cell pluripotency has been intensively studied, and...
BACKGROUND: Reconstruction of executable mechanistic models from single-cell gene expression data re...
A major challenge for stem cell engineering is achieving a holistic understanding of the molecular n...