AbstractWe still have little idea how the differential expression of one ‘master’ gene can control the morphology of complex structures, but recent studies suggest that the Drosophila Hox gene Ultrabithorax micromanages segment development by manipulating a large number of different targets at many developmental stages
Arthropods and vertebrates are constructed of many serially homologous structures whose individual p...
AbstractStudies in genetic model organisms such as Drosophila have demonstrated that the homeotic co...
SummaryBackgroundHox genes control animal body plans by directing the morphogenesis of segment-speci...
AbstractHox proteins have been proposed to act at multiple levels within regulatory hierarchies and ...
A recent study for the first time unravels a complete Hox regulatory network sufficient for the spec...
AbstractRecent studies provide compelling new evidence that Hox gene effects depend on fine-structur...
In the nearly 25 years since the cloning of the first Hox genes, the broad brushstrokes of their fun...
Mutations in the Ultrabithorax (Ubx) gene cause homeotic transformation of the normally two-winged D...
Hox genes encode a family of transcriptional regulators that elicit distinct developmental programme...
Although the specific form of an organ is frequently important for its function, the mechanisms unde...
Despite decades of research, morphogenesis along the various body axes remains one of the major myst...
Hox genes encode a family of transcriptional regulators that elicit distinct developmental programme...
Despite decades of research, morphogenesis along the various body axes remains one of the major myst...
AbstractHox proteins shape animal structures by eliciting different developmental programs along the...
SummaryHox genes control the anterior-posterior patterning of most metazoan embryos. Their sequentia...
Arthropods and vertebrates are constructed of many serially homologous structures whose individual p...
AbstractStudies in genetic model organisms such as Drosophila have demonstrated that the homeotic co...
SummaryBackgroundHox genes control animal body plans by directing the morphogenesis of segment-speci...
AbstractHox proteins have been proposed to act at multiple levels within regulatory hierarchies and ...
A recent study for the first time unravels a complete Hox regulatory network sufficient for the spec...
AbstractRecent studies provide compelling new evidence that Hox gene effects depend on fine-structur...
In the nearly 25 years since the cloning of the first Hox genes, the broad brushstrokes of their fun...
Mutations in the Ultrabithorax (Ubx) gene cause homeotic transformation of the normally two-winged D...
Hox genes encode a family of transcriptional regulators that elicit distinct developmental programme...
Although the specific form of an organ is frequently important for its function, the mechanisms unde...
Despite decades of research, morphogenesis along the various body axes remains one of the major myst...
Hox genes encode a family of transcriptional regulators that elicit distinct developmental programme...
Despite decades of research, morphogenesis along the various body axes remains one of the major myst...
AbstractHox proteins shape animal structures by eliciting different developmental programs along the...
SummaryHox genes control the anterior-posterior patterning of most metazoan embryos. Their sequentia...
Arthropods and vertebrates are constructed of many serially homologous structures whose individual p...
AbstractStudies in genetic model organisms such as Drosophila have demonstrated that the homeotic co...
SummaryBackgroundHox genes control animal body plans by directing the morphogenesis of segment-speci...
DOI
Add to ORKG