Add to ORKGSpecification of sea urchin embryo micromeres occurs early in cleavage, with the establishment of a well defined regulatory state. The architecture of the gene regulatory network controlling the specification process indicates that transcription of the initial tier of control genes depends on a double-negative gate. A gene encoding a transcriptional repressor, pmar1, is activated specifically in micromeres, where it represses transcription of a second repressor that is otherwise active globally. Thus, the micromere-specific control genes, which are the target of the second repressor, are expressed exclusively in this lineage. The double-negative specification gate was logically required from the results of numerous prior experiments, but th...
We dissect the transcriptional regulatory relationships coordinating the dynamic expression patterns...
AbstractWe present the current form of a provisional DNA sequence-based regulatory gene network that...
Controlling the differential expression of many thousands of genes is the most fundamental task of a...
Specification of sea urchin embryo micromeres occurs early in cleavage, with the establishment of a ...
Micromeres and their immediate descendants have three known developmental functions in regularly dev...
Abstractpmar1 is a transcription factor in the paired class homeodomain family that was identified a...
AbstractA gene regulatory network (GRN) controls the process by which the endomesoderm of the sea ur...
pmar1 is a transcription factor in the paired class homeodomain family that was identified and found...
A gene regulatory network (GRN) controls the process by which the endomesoderm of the sea urchin emb...
Cell fates in the sea urchin embryo are remarkably labile, despite the fact that maternal polarity a...
Sea stars and sea urchins evolved from a last common ancestor that lived at the end of the Cambrian,...
We present the current form of a provisional DNA sequence-based regulatory gene network that explain...
Embryonic development is controlled by networks of interacting regulatory genes. The individual link...
Original article can be found at: http://www.sciencedirect.com/science/journal/00121606 Copyright El...
Many genes, and particularly regulatory genes, are utilized multiple times in unrelated phases of de...
We dissect the transcriptional regulatory relationships coordinating the dynamic expression patterns...
AbstractWe present the current form of a provisional DNA sequence-based regulatory gene network that...
Controlling the differential expression of many thousands of genes is the most fundamental task of a...
Specification of sea urchin embryo micromeres occurs early in cleavage, with the establishment of a ...
Micromeres and their immediate descendants have three known developmental functions in regularly dev...
Abstractpmar1 is a transcription factor in the paired class homeodomain family that was identified a...
AbstractA gene regulatory network (GRN) controls the process by which the endomesoderm of the sea ur...
pmar1 is a transcription factor in the paired class homeodomain family that was identified and found...
A gene regulatory network (GRN) controls the process by which the endomesoderm of the sea urchin emb...
Cell fates in the sea urchin embryo are remarkably labile, despite the fact that maternal polarity a...
Sea stars and sea urchins evolved from a last common ancestor that lived at the end of the Cambrian,...
We present the current form of a provisional DNA sequence-based regulatory gene network that explain...
Embryonic development is controlled by networks of interacting regulatory genes. The individual link...
Original article can be found at: http://www.sciencedirect.com/science/journal/00121606 Copyright El...
Many genes, and particularly regulatory genes, are utilized multiple times in unrelated phases of de...
We dissect the transcriptional regulatory relationships coordinating the dynamic expression patterns...
AbstractWe present the current form of a provisional DNA sequence-based regulatory gene network that...
Controlling the differential expression of many thousands of genes is the most fundamental task of a...