AI Article Synopsis
- Lineage analysis is a powerful tool used to study cell development, and single-cell lineage analysis offers a more detailed approach by tracking individual cells over time.
- This method involves a Tamoxifen-inducible CAGCreER mouse line crossed with an R26R reporter line, allowing selective labeling of a few random cells by using low doses of Tamoxifen.
- By monitoring the growth of these labeled cells, researchers can gain insights into cellular behavior that traditional methods cannot provide, as demonstrated in studies of fetal germ cell development and female germ-line stem cells in adult mouse ovaries.
Article Abstract
Lineage analysis is widely used because it provides a very powerful tool for characterizing the developmental behavior of the cells in vivo. In this chapter, we describe a particularly informative variant of lineage analysis that we term "single-cell lineage analysis". As in traditional lineage analysis, the method employs a Tamoxifen (Tmx)-inducible CAGCreER mouse line, which is crossed to an R26R reporter line that can be activated by Cre-mediated DNA recombination. However, instead of driving CreER at a high level within a subset of cells defined by a particular promoter, CreER is driven with a generic promoter that is active in essentially all cells throughout the lifespan of the mouse. Specificity comes from using only a very low dose of Tmx so that just a few random, widely separated individual cells undergo recombination and become labeled. The growth and behavior of most such initially marked cells can subsequently be followed over time because each one forms a growing clone of marked cells that does not overlap with other clones due to their rarity. Following individual cell growth patterns provides much more information than can be derived from traditional lineage analysis, which relies on promoter specificity and uses high doses of Tmx that cannot resolve the behavior of single cells. We illustrate the value of single-cell lineage analysis using a recent study of fetal germ cell development and a recent search for female germ-line stem cells in adult mouse ovaries.
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| http://dx.doi.org/10.1007/978-1-4939-4017-2_10 | DOI Listing |
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