Add to ORKGSperm and egg production requires a robust stem cell system that balances self-renewal with differentiation. Self-renewal at the expense of differentiation can cause tumorigenesis, whereas differentiation at the expense of self-renewal can cause germ cell depletion and infertility. In most organisms, and sometimes in both sexes, germline stem cells (GSCs) often reside in a defined anatomical niche. Factors within the niche regulate a balance between GSC self-renewal and differentiation. Asymmetric division of the germline stem cell to form daughter cells with alternative fates is common. The exception to both these tendencies is the mammalian testis where there does not appear to be an obvious anatomical niche and where GSC homeostasis is l...
Germline stem cells are key to genome transmission to future generations. Over recent years, there h...
Spermatogonial stem cells (SSCs), also known as male germline stem cells, are a small subpopulation ...
International audienceOur fascination for stem cells originates from their ability to divide asymmet...
Mammalian spermatogenesis is a complicated and precisely controlled process that requires spermatogo...
In males, germ cell homeostasis is maintained by self-renewal and differentiation of a robust stem c...
Germline and somatic stem cells are distinct types of stem cells that are dedicated to reproduction ...
Stem cells support tissue maintenance by balancing self-renewal and differentiation. In mice, it is ...
The germ cell lineage is our lifelong reservoir of reproductive stem cells and our mechanism for tra...
Natural selection is the process by which variation within a population is assessed and resolved, le...
The ethical issues and public concerns regarding the use of embryonic stem (ES) cells in human thera...
Familial health largely reflects the quality of traits transmitted by ancestral oocytes and spermato...
International audienceIn adults, stem cells are responsible for the maintenance of many actively ren...
Spermatogonial stem cells (SSCs), the stem cells responsible for male fertility, are one of a small ...
Niche is believed to affect stem cell behavior. In self-renew-ing systems for which functional trans...
Stem cells have an enormous capacity of self-renewal, as well as the ability to differentiate into s...
Germline stem cells are key to genome transmission to future generations. Over recent years, there h...
Spermatogonial stem cells (SSCs), also known as male germline stem cells, are a small subpopulation ...
International audienceOur fascination for stem cells originates from their ability to divide asymmet...
Mammalian spermatogenesis is a complicated and precisely controlled process that requires spermatogo...
In males, germ cell homeostasis is maintained by self-renewal and differentiation of a robust stem c...
Germline and somatic stem cells are distinct types of stem cells that are dedicated to reproduction ...
Stem cells support tissue maintenance by balancing self-renewal and differentiation. In mice, it is ...
The germ cell lineage is our lifelong reservoir of reproductive stem cells and our mechanism for tra...
Natural selection is the process by which variation within a population is assessed and resolved, le...
The ethical issues and public concerns regarding the use of embryonic stem (ES) cells in human thera...
Familial health largely reflects the quality of traits transmitted by ancestral oocytes and spermato...
International audienceIn adults, stem cells are responsible for the maintenance of many actively ren...
Spermatogonial stem cells (SSCs), the stem cells responsible for male fertility, are one of a small ...
Niche is believed to affect stem cell behavior. In self-renew-ing systems for which functional trans...
Stem cells have an enormous capacity of self-renewal, as well as the ability to differentiate into s...
Germline stem cells are key to genome transmission to future generations. Over recent years, there h...
Spermatogonial stem cells (SSCs), also known as male germline stem cells, are a small subpopulation ...
International audienceOur fascination for stem cells originates from their ability to divide asymmet...