Changliang Hou scite author profile

High-throughput stage-specific transcriptomics provides an unbiased approach for understanding the process of cell development. Here, we report transcriptome analysis of primordial germ cell, female germline stem cell (FGSC), germinal vesicle and mature oocyte by performing RNA sequencing of freshly isolated cells in mice. As expected, these stages and gene-expression profiles are consistent with developmental timing. Analysis of genome-wide DNA methylation during female germline development was used for confirmation. By pathway analysis and blocking experiments, we demonstrate PI3K-AKT pathway is critical for FGSC maintenance. We also identify functional modules with hub genes and lncRNAs, which represent candidates for regulating FGSC self-renewal and differentiation. Remarkably, we note alternative splicing patterns change dramatically during female germline development, with the highest occurring in FGSCs. These findings are invaluable resource for dissecting the molecular pathways and processes into oogenesis and will be wider applications for other types of stem cell research.

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Long noncoding RNA growth arrest-specific 5 promotes proliferation and survival of female germline stem cells in vitro

Wang

Gong

Tian

et al. 2018

Gene

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Changliang Hou

Microcapsule preparation of allyl isothiocyanate and its application on mature green tomato preservation

Offspring production of ovarian organoids derived from spermatogonial stem cells by defined factors with chromatin reorganization

Molecular characteristics of early-stage female germ cells revealed by RNA sequencing of low-input cells and analysis of genome-wide DNA methylation

Long noncoding RNA growth arrest-specific 5 promotes proliferation and survival of female germline stem cells in vitro

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