AbstractTwo Drosophila Hox genes involved in segmentation, fushi tarazu and bicoid, appear to have acquired these roles by functional divergence from classical homeotic genes. Recent results indicate how genes with critical functions in development can evolve completely different functions among species
Background: Hox genes code for homeodomain-containing transcription factors that function in cell fa...
AbstractRecent studies provide compelling new evidence that Hox gene effects depend on fine-structur...
AbstractSurveys of Hox genes in various arthropods and related phyla demonstrate that extensive dupl...
AbstractTwo Drosophila Hox genes involved in segmentation, fushi tarazu and bicoid, appear to have a...
AbstractBackground:Hox genes specify cell fate and regional identity during animal development. Thes...
In the nearly 25 years since the cloning of the first Hox genes, the broad brushstrokes of their fun...
Comparisons between Hox genes in different arthropods suggest that the diversity of Antennapedia-cla...
AbstractThe DNA-binding homeobox motif was first identified in several Drosophila homeotic genes but...
AbstractWe still have little idea how the differential expression of one ‘master’ gene can control t...
Homeotic (Hox) genes are important in determining regional identity in virtually all metazoans,and a...
SummarySome Drosophila Hox-complex members, including the segmentation gene fushi tarazu (Dm-ftz), h...
RIGHTS : This article is licensed under the BioMed Central licence at http://www.biomedcentral.com/...
Gene duplications within the conserved Hox cluster are rare in animal evolution, but in Lepidoptera ...
International audienceChanges in Homeotic (Hox) gene regulation have long been thought to drive the ...
AbstractStudies in genetic model organisms such as Drosophila have demonstrated that the homeotic co...
Background: Hox genes code for homeodomain-containing transcription factors that function in cell fa...
AbstractRecent studies provide compelling new evidence that Hox gene effects depend on fine-structur...
AbstractSurveys of Hox genes in various arthropods and related phyla demonstrate that extensive dupl...
AbstractTwo Drosophila Hox genes involved in segmentation, fushi tarazu and bicoid, appear to have a...
AbstractBackground:Hox genes specify cell fate and regional identity during animal development. Thes...
In the nearly 25 years since the cloning of the first Hox genes, the broad brushstrokes of their fun...
Comparisons between Hox genes in different arthropods suggest that the diversity of Antennapedia-cla...
AbstractThe DNA-binding homeobox motif was first identified in several Drosophila homeotic genes but...
AbstractWe still have little idea how the differential expression of one ‘master’ gene can control t...
Homeotic (Hox) genes are important in determining regional identity in virtually all metazoans,and a...
SummarySome Drosophila Hox-complex members, including the segmentation gene fushi tarazu (Dm-ftz), h...
RIGHTS : This article is licensed under the BioMed Central licence at http://www.biomedcentral.com/...
Gene duplications within the conserved Hox cluster are rare in animal evolution, but in Lepidoptera ...
International audienceChanges in Homeotic (Hox) gene regulation have long been thought to drive the ...
AbstractStudies in genetic model organisms such as Drosophila have demonstrated that the homeotic co...
Background: Hox genes code for homeodomain-containing transcription factors that function in cell fa...
AbstractRecent studies provide compelling new evidence that Hox gene effects depend on fine-structur...
AbstractSurveys of Hox genes in various arthropods and related phyla demonstrate that extensive dupl...
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