Pages that link to "Q52013796"
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The following pages link to A group 13 homeodomain is neither necessary nor sufficient for posterior prevalence in the mouse limb. (Q52013796):
Displaying 14 items.
- Integration of the transcriptional networks regulating limb morphogenesis (Q27023206) (← links)
- Hoxd and Gli3 interactions modulate digit number in the amniote limb (Q28508727) (← links)
- Sall genes regulate region-specific morphogenesis in the mouse limb by modulating Hox activities (Q28509027) (← links)
- MicroRNAs in the Hox network: an apparent link to posterior prevalence (Q28752243) (← links)
- Interactions between HOXD and Gli3 genes control the limb apical ectodermal ridge via Fgf10. (Q34579097) (← links)
- Clustering of tissue-specific sub-TADs accompanies the regulation of HoxA genes in developing limbs (Q35079874) (← links)
- Physical forces may cause Hox gene collinearity in the primary and secondary axes of the developing vertebrates (Q37831923) (← links)
- Insights on the role of hox genes in the emergence of the pentadactyl ground state (Q38610804) (← links)
- Fins into limbs: Autopod acquisition and anterior elements reduction by modifying gene networks involving 5'Hox, Gli3, and Shh. (Q38780518) (← links)
- Hox transcription factors influence motoneuron identity through the integrated actions of both homeodomain and non-homeodomain regions (Q42026912) (← links)
- Distal Limb Patterning Requires Modulation of cis-Regulatory Activities by HOX13. (Q45976590) (← links)
- Tri-phasic expression of posterior Hox genes during development of pectoral fins in zebrafish: implications for the evolution of vertebrate paired appendages (Q46475249) (← links)
- Isolated bilateral transverse agenesis of the distal segments of the lower limbs at the level of the knee joint in a human fetus. (Q53286902) (← links)
- Joining the fingers: a HOXD13 Story (Q57921627) (← links)