Novel Tools for Genetic Manipulation of Follicle Stem Cells in the Drosophila Ovary Reveal an Integrin-Dependent Transition from Quiescence to Proliferation-Reference-Cited by-同舟云学术

Novel Tools for Genetic Manipulation of Follicle Stem Cells in the Drosophila Ovary Reveal an Integrin-Dependent Transition from Quiescence to Proliferation

Published:2015-02-12 Issue:4 Volume:199 Page:935-957
ISSN:1943-2631
Container-title:Genetics
language:en
Short-container-title:

Author:

Hartman Tiffiney R¹¹,Ventresca Erin M¹¹,Hopkins Anthony¹¹,Zinshteyn Daniel¹,Singh Tanu¹²,O’Brien Jenny A¹³,Neubert Benjamin C¹⁴,Hartman Matthew G¹,Schofield Heather K¹,Stavrides Kevin P¹,Talbot Danielle E¹⁵,Riggs Devon J¹⁶,Pritchard Caroline¹⁷,O’Reilly Alana M¹

Affiliation:

1. Program in Cancer Biology, Fox Chase Cancer Center, Philadelphia, Pennsylvania 19111

2. Molecular Cell Biology and Genetics Graduate Program, Drexel University College of Medicine, Philadelphia, Pennsylvania 19102

3. Department of Cancer Biology and Genetics, Temple University School of Medicine, Philadelphia, Pennsylvania 19140

4. North Penn High School, Lansdale, Pennsylvania 19446

5. St. Hubert Catholic High School for Girls, Philadelphia, Pennsylvania 19136

6. Science Scholars Program, Temple University, Philadelphia, Pennsylvania 19122

7. Souderton Area High School, Souderton, Pennsylvania 18964

Abstract

Abstract In many tissues, the presence of stem cells is inferred by the capacity of the tissue to maintain homeostasis and undergo repair after injury. Isolation of self-renewing cells with the ability to generate the full array of cells within a given tissue strongly supports this idea, but the identification and genetic manipulation of individual stem cells within their niche remain a challenge. Here we present novel methods for marking and genetically altering epithelial follicle stem cells (FSCs) within the Drosophila ovary. Using these new tools, we define a sequential multistep process that comprises transitioning of FSCs from quiescence to proliferation. We further demonstrate that integrins are cell-autonomously required within FSCs to provide directional signals that are necessary at each step of this process. These methods may be used to define precise roles for specific genes in the sequential events that occur during FSC division after a period of quiescence.

Publisher

Oxford University Press (OUP)

Subject

Genetics

Link

https://academic.oup.com/genetics/article-pdf/199/4/935/42134013/genetics0935.pdf

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