Add to ORKGThe mechanisms underlying adult stem cell behavior are likely to be diverse and have not yet been investigated systematically. Here we conducted an unbiased genetic screen using Drosophila ovarian follicle stem cells (FSCs) to probe essential functions regulating self-renewal of epithelial stem cells. Surprisingly, we find that niche adhesion emerge as the most commonly affected essential stem cell property, and that proliferation is critical for stem cell maintenance. We also find that PI3K pathway activation enhances FSC function, whereas mitochondrial dysfunction and ROS production lead to stem cell loss. Moreover, we find that most genes required specifically in the stem cell of the FSC lineage are widely expressed but are not required ...
The adult stem cell niche microenvironment is essential for maintenance and self renewal of the cell...
SummaryAdult epithelial stem cells are thought to reside in specific niches, where they are maintain...
Understanding how stem cell fate is initiated, maintained, and terminated is important, as improper ...
The mechanisms underlying adult stem cell behavior are likely to be diverse and have not yet been in...
The unique ability of stem cells to differentiate into at least one type of cell and to self-renew h...
Epithelial stem cells are maintained within niches that promote self-renewal by providing signals th...
International audienceOur fascination for stem cells originates from their ability to divide asymmet...
Stem cells are a fundamental underpinning of tissue biology. Loss of the self-renewing function of s...
The self-renewing ability of a stem cell is controlled by its specialized micro-environment or niche...
Recent studies have shown that the Musashi (Msi) family of RNAbinding translational repressors are e...
The past decade of research on Drosophila stem cells and niches has provided key insights. Fly stem ...
AbstractUnderstanding how stem-cell proliferation is controlled to maintain adult tissues is of fund...
AbstractStem cells are defined by the fact that they both self-renew, producing additional stem cell...
SummaryRapid progress has recently been made regarding how the niche controls stem cell function, bu...
Cancer stem cells (CSCs) may hold the key to advances in cancer research. Like adult tissue-specific...
The adult stem cell niche microenvironment is essential for maintenance and self renewal of the cell...
SummaryAdult epithelial stem cells are thought to reside in specific niches, where they are maintain...
Understanding how stem cell fate is initiated, maintained, and terminated is important, as improper ...
The mechanisms underlying adult stem cell behavior are likely to be diverse and have not yet been in...
The unique ability of stem cells to differentiate into at least one type of cell and to self-renew h...
Epithelial stem cells are maintained within niches that promote self-renewal by providing signals th...
International audienceOur fascination for stem cells originates from their ability to divide asymmet...
Stem cells are a fundamental underpinning of tissue biology. Loss of the self-renewing function of s...
The self-renewing ability of a stem cell is controlled by its specialized micro-environment or niche...
Recent studies have shown that the Musashi (Msi) family of RNAbinding translational repressors are e...
The past decade of research on Drosophila stem cells and niches has provided key insights. Fly stem ...
AbstractUnderstanding how stem-cell proliferation is controlled to maintain adult tissues is of fund...
AbstractStem cells are defined by the fact that they both self-renew, producing additional stem cell...
SummaryRapid progress has recently been made regarding how the niche controls stem cell function, bu...
Cancer stem cells (CSCs) may hold the key to advances in cancer research. Like adult tissue-specific...
The adult stem cell niche microenvironment is essential for maintenance and self renewal of the cell...
SummaryAdult epithelial stem cells are thought to reside in specific niches, where they are maintain...
Understanding how stem cell fate is initiated, maintained, and terminated is important, as improper ...