Transcriptomics

Dataset Information

0

RUNX1 safeguards the identity of the fetal ovary through an interplay with FOXL2


ABSTRACT: We discovered that expression of the transcription factor RUNX1 is enriched in the fetal ovary in various vertebrate species. In the mouse, RUNX1 marks the supporting cell lineage and becomes granulosa cell-specific as the gonads differentiate. To understand the function of Runx1 during fetal development of the ovary, we ablated Runx1 specifically in the somatic cell lineage of the fetal ovaries using Sf1-Cre . We compared ovarian differentiation in wild type, Runx1 and Foxl2 single knockouts, and Runx1/Foxl2 double knockout ovaries. Transcriptome comparisons of newborn ovaries revealed that loss of Runx1 or Foxl2 affected a similar set of genes: 41% of the genes affected by the loss of Runx1 were also changed by the loss of Foxl2. Despite these transcriptomic changes, granulosa cell identity was maintained during fetal life in both Runx1 or Foxl2 single knockout ovaries. However, the combined loss of Runx1/Foxl2 resulted in masculinization of the ovaries during fetal life. To further characterize the impacts of the combined loss of Runx1 and Foxl2 on ovarian differentiation, we compared the transcriptome of Runx1/Foxl2 DKO newborn ovaries with the transcriptomes of control, Runx1, or Foxl2 single KO ovaries.

ORGANISM(S): Mus musculus

PROVIDER: GSE129038 | GEO | 2019/07/17

REPOSITORIES: GEO

Dataset's files

Source:
Action DRS
Other
Items per page:
1 - 1 of 1

Similar Datasets

2019-04-02 | GSE128767 | GEO
2019-03-21 | GSE110093 | GEO
2024-03-25 | PXD043951 | Pride
2024-03-24 | GSE236860 | GEO
2024-03-24 | GSE236859 | GEO
2024-03-24 | GSE236785 | GEO
2010-05-17 | E-GEOD-12942 | biostudies-arrayexpress
2023-12-14 | GSE238263 | GEO
2019-03-25 | GSE78774 | GEO
2023-08-08 | GSE211241 | GEO