Many organs consist of distinct subregions with specialized physiological roles, but how regional boundaries are upheld during cellular renewal is largely unknown. Recently, Buchon et al. (2013) and Marianes and Spradling (2013) showed that subregions of the Drosophila midgut are maintained by patterned transcription factors and compartmentalized stem cell progeny
The past decade of research on Drosophila stem cells and niches has provided key insights. Fly stem ...
Adult stem cells maintain tissue integrity by dividing and producing progeny that differentiate to ...
Epithelial homeostasis requires the precise balance of epithelial stem/progenitor proliferation and ...
Many organs consist of distinct subregions with specialized physiological roles, but how regional bo...
Abstract The Drosophila midgut is maintained throughout its length by superficially similar, multipo...
Deciphering contributions of specific cell types to organ function is experimentally challenging. Th...
SummaryDeciphering contributions of specific cell types to organ function is experimentally challeng...
Deciphering contributions of specific cell types to organ function is experimentally challenging. Th...
The precise and systematic digestion and subsequent absorption of nutrients in food is vitally impor...
Although the gut is a central organ of Eumetazoans and is essential for organismal health, our under...
SummaryAlthough the gut is a central organ of Eumetazoans and is essential for organismal health, ou...
The Drosophila adult posterior midgut has been identified as a powerful system in which to study mec...
<div><p>Adult stem cells vary widely in their rates of proliferation. Some stem cells are constituti...
Adult stem cells vary widely in their rates of proliferation. Some stem cells are constitutively act...
Adult stem cells vary widely in their rates of proliferation. Some stem cells are constitutively act...
The past decade of research on Drosophila stem cells and niches has provided key insights. Fly stem ...
Adult stem cells maintain tissue integrity by dividing and producing progeny that differentiate to ...
Epithelial homeostasis requires the precise balance of epithelial stem/progenitor proliferation and ...
Many organs consist of distinct subregions with specialized physiological roles, but how regional bo...
Abstract The Drosophila midgut is maintained throughout its length by superficially similar, multipo...
Deciphering contributions of specific cell types to organ function is experimentally challenging. Th...
SummaryDeciphering contributions of specific cell types to organ function is experimentally challeng...
Deciphering contributions of specific cell types to organ function is experimentally challenging. Th...
The precise and systematic digestion and subsequent absorption of nutrients in food is vitally impor...
Although the gut is a central organ of Eumetazoans and is essential for organismal health, our under...
SummaryAlthough the gut is a central organ of Eumetazoans and is essential for organismal health, ou...
The Drosophila adult posterior midgut has been identified as a powerful system in which to study mec...
<div><p>Adult stem cells vary widely in their rates of proliferation. Some stem cells are constituti...
Adult stem cells vary widely in their rates of proliferation. Some stem cells are constitutively act...
Adult stem cells vary widely in their rates of proliferation. Some stem cells are constitutively act...
The past decade of research on Drosophila stem cells and niches has provided key insights. Fly stem ...
Adult stem cells maintain tissue integrity by dividing and producing progeny that differentiate to ...
Epithelial homeostasis requires the precise balance of epithelial stem/progenitor proliferation and ...
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