Add to ORKGProximal-distal leg development in Drosophila involves a battery of genes expressed and required in specific proximal-distal (PD) domains of the appendage. Here we report the characterisation of a new gene of this type, dlim 1, a member of the Lhx family of genes whose proteins contain two Lim domains and a homeodomain. We show that the Lhx gene apterous (ap) is also required for PD leg development, and we study the functional interactions between ap, dlim1 and other PD genes during leg development. Our results show that a regulatory network formed by ap and dlim1 plus the homeobox genes aristaless and Bar specifies distal leg cell fates in Drosophila
The adult Drosophila melanogaster body develops from imaginal discs, groups of cells set-aside durin...
AbstractCellular interaction between the proximal and distal domains of the limb plays key roles in ...
The adult Drosophila melanogaster body develops from imaginal discs, groups of cells set-aside durin...
Proximodistal patterning in Drosophila requires division of the developing leg into increasingly sma...
AbstractThe subdivision of the developing field by region-specific expression of genes encoding tran...
The process of proximal-distal (PD) patterning in animal appendages requires the generation of posit...
AbstractThe expression of the Hox gene Distal-less (Dll) directs the development of appendages in a ...
AbstractDuring tissue patterning, developing fields may be subdivided into several non-overlapping d...
LIM domains are found in a variety of proteins, including cytoplasmic and nuclear LIM-only proteins,...
This study investigates the role of the homeobox gene Distal-less (Dll) in the development of the le...
Vertebrate limbs grow out from the flanks of embryos, with their main axis extending proximodistally...
The process of wing patterning involves precise molecular mechanisms to establish an organizing cent...
wingless and decapentaplegic signaling establishes the proximal-distal axis of Drosophila legs by ac...
The positional cues that govern the fate of cells along the dorsoventral axis of the developing vert...
SummaryThe development of the Drosophila leg requires both Decapentaplegic (Dpp) and Wingless (Wg), ...
The adult Drosophila melanogaster body develops from imaginal discs, groups of cells set-aside durin...
AbstractCellular interaction between the proximal and distal domains of the limb plays key roles in ...
The adult Drosophila melanogaster body develops from imaginal discs, groups of cells set-aside durin...
Proximodistal patterning in Drosophila requires division of the developing leg into increasingly sma...
AbstractThe subdivision of the developing field by region-specific expression of genes encoding tran...
The process of proximal-distal (PD) patterning in animal appendages requires the generation of posit...
AbstractThe expression of the Hox gene Distal-less (Dll) directs the development of appendages in a ...
AbstractDuring tissue patterning, developing fields may be subdivided into several non-overlapping d...
LIM domains are found in a variety of proteins, including cytoplasmic and nuclear LIM-only proteins,...
This study investigates the role of the homeobox gene Distal-less (Dll) in the development of the le...
Vertebrate limbs grow out from the flanks of embryos, with their main axis extending proximodistally...
The process of wing patterning involves precise molecular mechanisms to establish an organizing cent...
wingless and decapentaplegic signaling establishes the proximal-distal axis of Drosophila legs by ac...
The positional cues that govern the fate of cells along the dorsoventral axis of the developing vert...
SummaryThe development of the Drosophila leg requires both Decapentaplegic (Dpp) and Wingless (Wg), ...
The adult Drosophila melanogaster body develops from imaginal discs, groups of cells set-aside durin...
AbstractCellular interaction between the proximal and distal domains of the limb plays key roles in ...
The adult Drosophila melanogaster body develops from imaginal discs, groups of cells set-aside durin...