Add to ORKGA wide variety of morphological features have arisen over the course of evolution of bilateral organisms. A significant number of these features depend on the expression of Hox genes, a set of highly conserved genes encoding transcription factors. Different Hox genes are expressed along the anterior-posterior axis of the embryo. The presence or absence of specific Hox transcription factors in a region determines what kind of morphological structures will form. The mechanism by which Hox transcription factors control the development of such vastly different structures has eluded researchers for decades, especially in light of their ability to bind to nearly identical DNA-sequences in vitro. This has sparked a debate over how Ho...
The embryonal development of higher organisms is conducted by a network of many different structural...
Metazoans differentially express multiple Hox transcription factors to specify diverse cell fates al...
A recurring discussion in evolution biology is how the anterior-posterior animal body axis organizat...
A wide variety of morphological features have arisen over the course of evolution of bilateral orga...
Hox genes code for conserved homeodomain transcription factors, which act as regional regulators for...
Despite decades of research, morphogenesis along the various body axes remains one of the major myst...
AbstractWe still have little idea how the differential expression of one ‘master’ gene can control t...
Hox genes encode a class of animal transcription factors well known for the segment transformations ...
A recent study for the first time unravels a complete Hox regulatory network sufficient for the spec...
Homeotic genes (Hox genes) are homeodomain-transcription factors involved in conferring segmental id...
The developmental expression patterns of four genes, Hox 1.1., Hox 1.2, Hox 1.3 and Hox 3.1, were ex...
Hox genes encode a family of transcriptional regulators that elicit distinct developmental programme...
SummaryHox genes control the anterior-posterior patterning of most metazoan embryos. Their sequentia...
AbstractRecent studies provide compelling new evidence that Hox gene effects depend on fine-structur...
AbstractHox proteins shape animal structures by eliciting different developmental programs along the...
The embryonal development of higher organisms is conducted by a network of many different structural...
Metazoans differentially express multiple Hox transcription factors to specify diverse cell fates al...
A recurring discussion in evolution biology is how the anterior-posterior animal body axis organizat...
A wide variety of morphological features have arisen over the course of evolution of bilateral orga...
Hox genes code for conserved homeodomain transcription factors, which act as regional regulators for...
Despite decades of research, morphogenesis along the various body axes remains one of the major myst...
AbstractWe still have little idea how the differential expression of one ‘master’ gene can control t...
Hox genes encode a class of animal transcription factors well known for the segment transformations ...
A recent study for the first time unravels a complete Hox regulatory network sufficient for the spec...
Homeotic genes (Hox genes) are homeodomain-transcription factors involved in conferring segmental id...
The developmental expression patterns of four genes, Hox 1.1., Hox 1.2, Hox 1.3 and Hox 3.1, were ex...
Hox genes encode a family of transcriptional regulators that elicit distinct developmental programme...
SummaryHox genes control the anterior-posterior patterning of most metazoan embryos. Their sequentia...
AbstractRecent studies provide compelling new evidence that Hox gene effects depend on fine-structur...
AbstractHox proteins shape animal structures by eliciting different developmental programs along the...
The embryonal development of higher organisms is conducted by a network of many different structural...
Metazoans differentially express multiple Hox transcription factors to specify diverse cell fates al...
A recurring discussion in evolution biology is how the anterior-posterior animal body axis organizat...