Add to ORKGMotivation: Combinatorial interactions of transcription factors with cis-regulatory elements control the dynamic progression through successive cellular states and thus underpin all metazoan development. The construction of network models of cis-regulatory elements, therefore, has the potential to generate fundamental insights into cellular fate and differentiation. Haematopoiesis has long served as a model system to study mammalian differentiation, yet modelling based on experimentally informed cis-regulatory interactions has so far been restricted to pairs of interacting factors. Here, we have generated a Boolean network model based on detailed cis-regulatory functional data connecting 11 haematopoietic stem/progenitor cell (HSPC) regulat...
Hematopoiesis is an ideal model system for stem cell biology with advanced experimental access. A sy...
AbstractErythroid cell production results from passage through cellular hierarchies dependent on dif...
Maintenance of the blood system requires balanced cell-fate decisions of haematopoietic stem and pro...
MOTIVATION: Combinatorial interactions of transcription factors with cis-regulatory elements control...
MOTIVATION: Combinatorial interactions of transcription factors with cis-regulatory elements control...
Metazoan development involves the successive activation and silencing of specific gene expression pr...
AbstractInterlinked gene regulatory networks (GRNs) are vital for the spatial and temporal control o...
Adult blood contains a mixture of mature cell types, each with specialized functions. Single hematop...
SummaryMetazoan development involves the successive activation and silencing of specific gene expres...
Hematopoiesis is a highly complex developmental process that produces various types of blood cells. ...
Transcription factor (TF) networks determine cell-type identity by establishing and maintaining line...
International audienceAlternative cell differentiation pathways are believed to arise from the conce...
AbstractThe complex spectrum of cell types produced in mammalian hematopoiesis can be understood as ...
Hematopoiesis is an ideal model system for stem cell biology with advanced experimental access. A sy...
Metazoan development involves the successive activation and silencing of specific gene expression pr...
Hematopoiesis is an ideal model system for stem cell biology with advanced experimental access. A sy...
AbstractErythroid cell production results from passage through cellular hierarchies dependent on dif...
Maintenance of the blood system requires balanced cell-fate decisions of haematopoietic stem and pro...
MOTIVATION: Combinatorial interactions of transcription factors with cis-regulatory elements control...
MOTIVATION: Combinatorial interactions of transcription factors with cis-regulatory elements control...
Metazoan development involves the successive activation and silencing of specific gene expression pr...
AbstractInterlinked gene regulatory networks (GRNs) are vital for the spatial and temporal control o...
Adult blood contains a mixture of mature cell types, each with specialized functions. Single hematop...
SummaryMetazoan development involves the successive activation and silencing of specific gene expres...
Hematopoiesis is a highly complex developmental process that produces various types of blood cells. ...
Transcription factor (TF) networks determine cell-type identity by establishing and maintaining line...
International audienceAlternative cell differentiation pathways are believed to arise from the conce...
AbstractThe complex spectrum of cell types produced in mammalian hematopoiesis can be understood as ...
Hematopoiesis is an ideal model system for stem cell biology with advanced experimental access. A sy...
Metazoan development involves the successive activation and silencing of specific gene expression pr...
Hematopoiesis is an ideal model system for stem cell biology with advanced experimental access. A sy...
AbstractErythroid cell production results from passage through cellular hierarchies dependent on dif...
Maintenance of the blood system requires balanced cell-fate decisions of haematopoietic stem and pro...