Pathogenic stimulation of intestinal stem cell response in drosophila

## Abstract Renewing tissues in the adult organism such as the gastrointestinal (GI) epithelium depend on stem cells for epithelial maintenance and repair. Yet, little is known about the developmental origins of adult stem cells and their niches. Studies of Drosophila adult midgut precursors (AMPs)

## Abstract The digestive systems in mammals and __Drosophila__ are quite different in terms of their complexity and organization, but their biological functions are similar. The __Drosophila__ midgut is a functional equivalent of the mouse small intestine. Adult intestinal stem cells (ISCs) have b

## Abstract Over the past 2 years, our understanding of intestinal stem cells in the __Drosophila__ posterior midgut has advanced greatly. In this review, I will focus on the establishment of these stem cells in their niche during development and the molecular mechanisms that regulate their asymmet

## Abstract Previous work has suggested that many stem cells can be found in microanatomic niches, where adjacent somatic cells of the niche control the differentiation and proliferation states of their resident stem cells. Recently published work examining intestinal stem cells (ISCs) in the adult

In the adult Drosophila ovary the continuous production of eggs depends upon a small group of stem cells located at the anterior tip of the germarium. These stem cells divide asymmetrically to self renew and to generate a cystoblast, which in females is committed to the oocyte differentiation pathwa