Throughout the lifetime of an organism, progenitor cells in the intestine proliferate and differentiate to form cells of the secretory and absorptive lineages. Many intercellular signaling pathways, including the Notch pathway, coordinate to develop and maintain the intestine. My thesis work has investigated how Notch signaling regulates intestinal cell fate using several novel genetically engineered and pharmacological mouse models. Developmental analysis of a transgenic mouse model with forced expression of the Notch-regulated transcription factor Mouse atonal homolog 1 (Math1) showed increased numbers of all secretory cell types and loss of absorptive cells, demonstrating that Math1 is the key factor regulating intestinal secretory ce...
Intestinal cells are constantly produced from a stem cell reservoir that gives rise to proliferating...
The gastrointestinal (GI) tract epithelium is continuously replenished by actively cycling stem and ...
SummaryProper organ homeostasis requires tight control of adult stem cells and differentiation throu...
Throughout the lifetime of an organism, progenitor cells in the intestine proliferate and differenti...
The gastric epithelium undergoes constant turnover that is maintained by a population of gastric ste...
: The study of stem cell regulation in intestinal and colonic tissues is an area of significant focu...
The mammalian intestine is a prototype of a self-renewing organ. The rapid cellular turnover is supp...
Notch signaling is known to regulate the proliferation and differentiation of intestinal stem and pr...
Stem cell and progenitor fate in the mammalian intestine: Notch and lateral inhibition in homeostasi...
AbstractThe Notch-regulated transcription factor mouse atonal homolog 1 (Math1) is required for the ...
BACKGROUND & AIMS: Ablation of Notch signaling within the intestinal epithelium results in loss of p...
The conserved role of Notch signaling in controlling intestinal cell fate specification and homeosta...
BACKGROUND & AIMS: Notch signaling maintains intestinal stem cells (ISCs). When ISCs exit the niche,...
The conserved role of Notch signaling in controlling intestinal cell fate specification and homeosta...
In the past decade, enormous progress has been made in understanding the role of stem cells in physi...
Intestinal cells are constantly produced from a stem cell reservoir that gives rise to proliferating...
The gastrointestinal (GI) tract epithelium is continuously replenished by actively cycling stem and ...
SummaryProper organ homeostasis requires tight control of adult stem cells and differentiation throu...
Throughout the lifetime of an organism, progenitor cells in the intestine proliferate and differenti...
The gastric epithelium undergoes constant turnover that is maintained by a population of gastric ste...
: The study of stem cell regulation in intestinal and colonic tissues is an area of significant focu...
The mammalian intestine is a prototype of a self-renewing organ. The rapid cellular turnover is supp...
Notch signaling is known to regulate the proliferation and differentiation of intestinal stem and pr...
Stem cell and progenitor fate in the mammalian intestine: Notch and lateral inhibition in homeostasi...
AbstractThe Notch-regulated transcription factor mouse atonal homolog 1 (Math1) is required for the ...
BACKGROUND & AIMS: Ablation of Notch signaling within the intestinal epithelium results in loss of p...
The conserved role of Notch signaling in controlling intestinal cell fate specification and homeosta...
BACKGROUND & AIMS: Notch signaling maintains intestinal stem cells (ISCs). When ISCs exit the niche,...
The conserved role of Notch signaling in controlling intestinal cell fate specification and homeosta...
In the past decade, enormous progress has been made in understanding the role of stem cells in physi...
Intestinal cells are constantly produced from a stem cell reservoir that gives rise to proliferating...
The gastrointestinal (GI) tract epithelium is continuously replenished by actively cycling stem and ...
SummaryProper organ homeostasis requires tight control of adult stem cells and differentiation throu...
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