A recent study for the first time unravels a complete Hox regulatory network sufficient for the specification of a simple organ in Drosophila, linking Hox output to one specific group of executive genes, the realisators. As these genes have a direct effect on cellular functions and are required in most cell types, Hox genes may ultimately execute their function in controlling segmental fate by fine-tuning the spatial and temporal expression levels of these realisators
SummaryHox genes control the anterior-posterior patterning of most metazoan embryos. Their sequentia...
Metazoans differentially express multiple Hox transcription factors to specify diverse cell fates al...
AbstractHox proteins shape animal structures by eliciting different developmental programs along the...
A recent study for the first time unravels a complete Hox regulatory network sufficient for the spec...
Hox genes code for conserved homeodomain transcription factors, which act as regional regulators for...
Hox genes encode a class of animal transcription factors well known for the segment transformations ...
Despite decades of research, morphogenesis along the various body axes remains one of the major myst...
Despite decades of research, morphogenesis along the various body axes remains one of the major myst...
SummaryBackgroundHox genes control animal body plans by directing the morphogenesis of segment-speci...
Metazoans encode clusters of paralogous Hox genes that are critical for proper development of the bo...
Metazoans encode clusters of paralogous Hox genes that are critical for proper development of the bo...
AbstractWe still have little idea how the differential expression of one ‘master’ gene can control t...
Precise gene expression is a fundamental aspect of organismal function and depends on the combinator...
ABSTRACT The Hox genes specify different structures along the anteroposterior axis of bilaterians. T...
AbstractRecent studies provide compelling new evidence that Hox gene effects depend on fine-structur...
SummaryHox genes control the anterior-posterior patterning of most metazoan embryos. Their sequentia...
Metazoans differentially express multiple Hox transcription factors to specify diverse cell fates al...
AbstractHox proteins shape animal structures by eliciting different developmental programs along the...
A recent study for the first time unravels a complete Hox regulatory network sufficient for the spec...
Hox genes code for conserved homeodomain transcription factors, which act as regional regulators for...
Hox genes encode a class of animal transcription factors well known for the segment transformations ...
Despite decades of research, morphogenesis along the various body axes remains one of the major myst...
Despite decades of research, morphogenesis along the various body axes remains one of the major myst...
SummaryBackgroundHox genes control animal body plans by directing the morphogenesis of segment-speci...
Metazoans encode clusters of paralogous Hox genes that are critical for proper development of the bo...
Metazoans encode clusters of paralogous Hox genes that are critical for proper development of the bo...
AbstractWe still have little idea how the differential expression of one ‘master’ gene can control t...
Precise gene expression is a fundamental aspect of organismal function and depends on the combinator...
ABSTRACT The Hox genes specify different structures along the anteroposterior axis of bilaterians. T...
AbstractRecent studies provide compelling new evidence that Hox gene effects depend on fine-structur...
SummaryHox genes control the anterior-posterior patterning of most metazoan embryos. Their sequentia...
Metazoans differentially express multiple Hox transcription factors to specify diverse cell fates al...
AbstractHox proteins shape animal structures by eliciting different developmental programs along the...
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