AbstractThe nephrons of the vertebrate kidney originate from mesenchymal tissue that is recruited and incorporated into a branching epithelium. Key features of this unusual manner of specifying functional units within a tubular organ have now been found to be similarly employed during development of the insect renal system
AbstractIn search of guiding principles involved in the branching of epithelial tubes in the develop...
Using the renal tubules of Drosophila as an example, we explore how cell speci¢cation leads to the m...
The mammalian kidney, the metanephros, is formed by a reciprocally inductive interaction between two...
AbstractThe nephrons of the vertebrate kidney originate from mesenchymal tissue that is recruited an...
AbstractOrgans are made up of cells from separate origins, whose development and differentiation mus...
The two major components of the kidney, the collecting system and the nephron, have different develo...
AbstractBranching morphogenesis involves the restructuring of epithelial tissues into complex and or...
The mammalian kidney may well be one of the most complex organs of postnatal life. Each adult human ...
AbstractMany organs are composed of epithelial tubes that transport vital fluids. Such tubular organ...
AbstractEpithelial tubes are a fundamental tissue across the metazoan phyla and provide an essential...
The function of all animal excretory systems is to rid the body of toxins and to maintain homeostati...
AbstractThe development of most, if not all, tubular organs is dependent on signaling between epithe...
SummaryAll animals must excrete the waste products of metabolism. Excretion is performed by the kidn...
A common theme in organogenesis is the branching of epithelial tubes, for example in the lung, liver...
Many of the functions of the kidney are carried out by two cell types, the epithelial and the endoth...
AbstractIn search of guiding principles involved in the branching of epithelial tubes in the develop...
Using the renal tubules of Drosophila as an example, we explore how cell speci¢cation leads to the m...
The mammalian kidney, the metanephros, is formed by a reciprocally inductive interaction between two...
AbstractThe nephrons of the vertebrate kidney originate from mesenchymal tissue that is recruited an...
AbstractOrgans are made up of cells from separate origins, whose development and differentiation mus...
The two major components of the kidney, the collecting system and the nephron, have different develo...
AbstractBranching morphogenesis involves the restructuring of epithelial tissues into complex and or...
The mammalian kidney may well be one of the most complex organs of postnatal life. Each adult human ...
AbstractMany organs are composed of epithelial tubes that transport vital fluids. Such tubular organ...
AbstractEpithelial tubes are a fundamental tissue across the metazoan phyla and provide an essential...
The function of all animal excretory systems is to rid the body of toxins and to maintain homeostati...
AbstractThe development of most, if not all, tubular organs is dependent on signaling between epithe...
SummaryAll animals must excrete the waste products of metabolism. Excretion is performed by the kidn...
A common theme in organogenesis is the branching of epithelial tubes, for example in the lung, liver...
Many of the functions of the kidney are carried out by two cell types, the epithelial and the endoth...
AbstractIn search of guiding principles involved in the branching of epithelial tubes in the develop...
Using the renal tubules of Drosophila as an example, we explore how cell speci¢cation leads to the m...
The mammalian kidney, the metanephros, is formed by a reciprocally inductive interaction between two...
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