Add to ORKGThe receptor protein NOTCH and its ligands SERRATE and DELTA are involved in many developmental processes in invertebrates and vertebrates alike. Here we show that the expression of the Serrate and Delta genes patterns the segments of the leg in Drosophila by a combination of their signalling activities. Coincident stripes of Serrate and Delta expressing cells activate Enhancer of split expression in adjacent cells through Notch signalling. These cells form a patterning boundary from which a putative secondary signal leads to the development of leg joints. Elsewhere in the tarsal segments, signalling by DELTA and NOTCH is necessary far the development of non-joint parts of the leg. We propose that these two effects result from different thr...
AbstractBackground: The appendages of insects, like the limbs of vertebrates, grow out of the body w...
The Notch gene encodes an evolutionarily conserved cell surface receptor that generates regulatory s...
Notch signaling is conserved in most multicellular organisms and plays critical roles during animal ...
Wing development in Drosophila requires the activation of Wingless (Wg) in a small stripe along the ...
<div><p>Wing development in <em>Drosophila</em> requires the activation of Wingless (Wg) in a small ...
AbstractDrosophila dorsal longitudinal muscles develop during metamorphosis by fusion of myoblasts w...
AbstractNotch signaling controls formation of joints at leg segment borders and growth of the develo...
AbstractThe formation of signalling boundaries is one of the strategies employed by the Notch (N) pa...
The formation of signalling boundaries is one of the strategies employed by the Notch (N) pathway to...
AbstractThe Drosophila leg imaginal disc provides a paradigm with which to understand the fundamenta...
The way in which arthropods construct their body plans is determined by the method of segmentation t...
Multiple tissue interactions take place during the development of the limb musculoskeletal system. W...
Notch/Delta signaling in proneural clusters in Drosophila. In one cell, Delta is activated by Achaet...
AbstractBackground: The Drosophila Notch protein is a receptor that controls cell fate during embryo...
AbstractThe Notch pathway plays a key role in the formation of many tissues and cell types in Metazo...
AbstractBackground: The appendages of insects, like the limbs of vertebrates, grow out of the body w...
The Notch gene encodes an evolutionarily conserved cell surface receptor that generates regulatory s...
Notch signaling is conserved in most multicellular organisms and plays critical roles during animal ...
Wing development in Drosophila requires the activation of Wingless (Wg) in a small stripe along the ...
<div><p>Wing development in <em>Drosophila</em> requires the activation of Wingless (Wg) in a small ...
AbstractDrosophila dorsal longitudinal muscles develop during metamorphosis by fusion of myoblasts w...
AbstractNotch signaling controls formation of joints at leg segment borders and growth of the develo...
AbstractThe formation of signalling boundaries is one of the strategies employed by the Notch (N) pa...
The formation of signalling boundaries is one of the strategies employed by the Notch (N) pathway to...
AbstractThe Drosophila leg imaginal disc provides a paradigm with which to understand the fundamenta...
The way in which arthropods construct their body plans is determined by the method of segmentation t...
Multiple tissue interactions take place during the development of the limb musculoskeletal system. W...
Notch/Delta signaling in proneural clusters in Drosophila. In one cell, Delta is activated by Achaet...
AbstractBackground: The Drosophila Notch protein is a receptor that controls cell fate during embryo...
AbstractThe Notch pathway plays a key role in the formation of many tissues and cell types in Metazo...
AbstractBackground: The appendages of insects, like the limbs of vertebrates, grow out of the body w...
The Notch gene encodes an evolutionarily conserved cell surface receptor that generates regulatory s...
Notch signaling is conserved in most multicellular organisms and plays critical roles during animal ...