TY - JOUR
T1 - Cell lineage analysis of the mammalian female germline
AU - Reizel, Yitzhak
AU - Itzkovitz, Shalev
AU - Adar, Rivka
AU - Elbaz, Judith
AU - Jinich, Adrian
AU - Chapal-Ilani, Noa
AU - Maruvka, Yosef E.
AU - Nevo, Nava
AU - Marx, Zipora
AU - Horovitz, Inna
AU - Wasserstrom, Adam
AU - Mayo, Avi
AU - Shur, Irena
AU - Benayahu, Dafna
AU - Skorecki, Karl
AU - Segal, Eran
AU - Dekel, Nava
AU - Shapiro, Ehud
PY - 2012/2
Y1 - 2012/2
N2 - Fundamental aspects of embryonic and post-natal development, including maintenance of the mammalian female germline, are largely unknown. Here we employ a retrospective, phylogenetic-based method for reconstructing cell lineage trees utilizing somatic mutations accumulated in microsatellites, to study female germline dynamics in mice. Reconstructed cell lineage trees can be used to estimate lineage relationships between different cell types, as well as cell depth (number of cell divisions since the zygote). We show that, in the reconstructed mouse cell lineage trees, oocytes form clusters that are separate from hematopoietic and mesenchymal stem cells, both in young and old mice, indicating that these populations belong to distinct lineages. Furthermore, while cumulus cells sampled from different ovarian follicles are distinctly clustered on the reconstructed trees, oocytes from the left and right ovaries are not, suggesting a mixing of their progenitor pools. We also observed an increase in oocyte depth with mouse age, which can be explained either by depth-guided selection of oocytes for ovulation or by post-natal renewal. Overall, our study sheds light on substantial novel aspects of female germline preservation and development.
AB - Fundamental aspects of embryonic and post-natal development, including maintenance of the mammalian female germline, are largely unknown. Here we employ a retrospective, phylogenetic-based method for reconstructing cell lineage trees utilizing somatic mutations accumulated in microsatellites, to study female germline dynamics in mice. Reconstructed cell lineage trees can be used to estimate lineage relationships between different cell types, as well as cell depth (number of cell divisions since the zygote). We show that, in the reconstructed mouse cell lineage trees, oocytes form clusters that are separate from hematopoietic and mesenchymal stem cells, both in young and old mice, indicating that these populations belong to distinct lineages. Furthermore, while cumulus cells sampled from different ovarian follicles are distinctly clustered on the reconstructed trees, oocytes from the left and right ovaries are not, suggesting a mixing of their progenitor pools. We also observed an increase in oocyte depth with mouse age, which can be explained either by depth-guided selection of oocytes for ovulation or by post-natal renewal. Overall, our study sheds light on substantial novel aspects of female germline preservation and development.
UR - http://www.scopus.com/inward/record.url?scp=84859179139&partnerID=8YFLogxK
U2 - 10.1371/journal.pgen.1002477
DO - 10.1371/journal.pgen.1002477
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C2 - 22383887
AN - SCOPUS:84859179139
SN - 1553-7390
VL - 8
JO - PLoS Genetics
JF - PLoS Genetics
IS - 2
M1 - e1002477
ER -