The discovery of gene regulatory networks (GRNs) has opened a gate to access the genomic mechanisms controlling development. GRNs are systems of transcriptional regulatory circuits that control the differential specification of cell fates during development by regulating gene expression. The experimental analysis of GRNs involves a collection of methods, each revealing aspects of the overall control process. This review provides an overview of experimental and computational methods that have been successfully applied for solving developmental GRNs in the sea urchin embryo. The key in this approach is to obtain experimental evidence for functional interactions between transcription factors and regulatory DNA. In the second part of this revie...
The experimental approach presented here aims to understand the mechanisms by which differential gen...
AbstractThe investigation and modeling of gene regulatory networks requires computational tools spec...
<p>One of the central concerns of Evolutionary Developmental biology is to understand how the specif...
This chapter considers special methodologies developed for gene regulatory network (GRN) analysis an...
Sea urchin embryos begin zygotic transcription shortly after the egg is fertilized. Throughout the ...
The gene regulatory network (GRN) established experimentally for the pre-gastrular sea urchin embryo...
This work focuses on the GRNs specifying embryonic skeletogenesis and the pigment cell differentiati...
Developmental processes are hardwired in the genomic DNA of each animal species. The DNA sequences t...
The current state of the gene regulatory network for endomesoderm specification in sea urchin embryo...
Developmental gene regulatory networks (GRNs) explain how regulatory states are established in parti...
AbstractThe current gene regulatory network (GRN) for the sea urchin embryo pertains to pregastrular...
The genomic regulatory network that controls gene expression ultimately determines form and function...
Regulatory genes form large networks that are fundamental to the developmental program. The protocol...
Gene regulatory networks (GRNs) for development underlie cell fate specification and differentiatio...
AbstractThe gene regulatory network (GRN) established experimentally for the pre-gastrular sea urchi...
The experimental approach presented here aims to understand the mechanisms by which differential gen...
AbstractThe investigation and modeling of gene regulatory networks requires computational tools spec...
<p>One of the central concerns of Evolutionary Developmental biology is to understand how the specif...
This chapter considers special methodologies developed for gene regulatory network (GRN) analysis an...
Sea urchin embryos begin zygotic transcription shortly after the egg is fertilized. Throughout the ...
The gene regulatory network (GRN) established experimentally for the pre-gastrular sea urchin embryo...
This work focuses on the GRNs specifying embryonic skeletogenesis and the pigment cell differentiati...
Developmental processes are hardwired in the genomic DNA of each animal species. The DNA sequences t...
The current state of the gene regulatory network for endomesoderm specification in sea urchin embryo...
Developmental gene regulatory networks (GRNs) explain how regulatory states are established in parti...
AbstractThe current gene regulatory network (GRN) for the sea urchin embryo pertains to pregastrular...
The genomic regulatory network that controls gene expression ultimately determines form and function...
Regulatory genes form large networks that are fundamental to the developmental program. The protocol...
Gene regulatory networks (GRNs) for development underlie cell fate specification and differentiatio...
AbstractThe gene regulatory network (GRN) established experimentally for the pre-gastrular sea urchi...
The experimental approach presented here aims to understand the mechanisms by which differential gen...
AbstractThe investigation and modeling of gene regulatory networks requires computational tools spec...
<p>One of the central concerns of Evolutionary Developmental biology is to understand how the specif...