Germline stem cells play a crucial role in the reproductive biology of females, particularly in the context of ovarian function and fertility. Recent research has focused on identifying and ...

The study of germline stem cells in the nematode Caenorhabditis elegans (C. elegans) provides valuable insights into the mechanisms of stem cell regulation and differentiation. C. elegans serves ...

The nucleus of a germline stem cell undergoes two divisions, firstly separating homologous chromosomes and secondly separating chromatids. Haploid gametes contain 23 single chromosomes.

Control of germline stem cell (GSC) cytokinesis is regulated both by the niche and by the second population of stem cells in the testis, the somatic cyst stem cells (CySCs). This makes the fly testis ...

Modifying genes in a human embryo is one way to accomplish this, and speakers at the meeting also discussed a different form of germline engineering, one that involves modifying the stem cells ...

Since stem cells have the ability to turn into various other types of cells they can be useful for treating and understanding disease. Researchers can use stem cells in laboratories to test new ...

Dr. Singh's laboratory studies post-transcriptional gene regulation. The focus is on how RNA-binding proteins control molecular processes during male and female germline stem cell differentiation.

Researchers constantly report that they have reprogrammed somatic cells or adult stem cells into pluripotent stem cells ... Demonstrating the presence of iPS cells that have matured into cells of the ...

In multicellular organisms, how do multiple cell types originate from one cell and one genome? A critical early cell fate decision is whether to develop as germline (reproductive) or soma ...