Articles tagged with Gametogenesis
A new '3D genome organizer' has been discovered, crucial for sperm production in mice, and highly expressed in human immune cells and blood cancers. Blocking this complex may slow cancer growth and lead to new infertility treatments.
Researchers at Wyss Institute develop in vitro method to induce meiosis in human cells, enabling replication of critical step in egg and sperm cell development. The breakthrough could lead to modeling defects and creating healthy gametes for individuals with infertility.
Live imaging techniques reveal that the secretory pathway plays a crucial role in de novo membrane formation, with Gip1 identified as a key molecule affecting this process. In Gip1-deficient cells, abnormal spore plasma membranes are formed due to defects in regenerating ER exit sites.
The team successfully created 'laboratory testicles' that closely simulate a natural testicle, allowing for the potential production of sperm cells in the lab. The artificial testicles were cultured from immature testicular cells sampled from neonatal mice and showed signs of meiosis, a process in which gametes are produced.
Scientists have successfully transformed blood cells into sperm precursors in marmoset embryos using a step-by-step process. The study, published in eLife, opens up new avenues for studying primate biology and developing novel assisted reproductive technologies.
Researchers found that artificial light pollution affects coral reproduction, causing delayed gametogenesis and unsynchronized gamete release. The study suggests that natural periodic illumination is crucial for cueing spawning synchronicity and the gametogenic process.