Researchers created the first bi-paternal mouse by modifying imprinting genes, advancing reproductive science but facing ...

A team of stem cell scientists have successfully used embryonic stem cell engineering to create a bi-paternal mouse—a mouse with two male parents—that lived until adulthood. Their results, published ...

By contrast, scientists working with private money have been developing embryonic stem cell lines that are hardier, less demanding, and not dependent on mouse cells. Bypassing the use of mouse ...

The most complex engineering of human cell lines ever has been achieved by scientists, revealing that our genomes are more ...

A team of scientists created a bi-paternal mouse through targeted imprinting gene edits in embryonic stem cells. This demonstrates the potential for overcoming barriers to unisexual mammalian ...

Human embryonic stem cells accrue changes in their genomes that could make them unusable therapeutically when cultured at length, an international team of scientists report in the October Nature ...

2025 — A team of stem cell scientists have successfully used embryonic stem cell engineering to create a bi-paternal mouse -- a mouse with two male parents -- that lived until adulthood.

Using cutting-edge stem cell technology, a team of scientists from the Chinese Academy of Sciences (CAS) recently created a ...

Three human embryonic stem cell lines once eligible for federal funding are "on hold" until further notice because they were derived from embryos that were too early. Human embryonic stem cellsImage: ...

Stem cell scientists have successfully used embryonic stem cell engineering to create a bi-paternal mouse — a mouse with two ...

Embryonic stem cells (ESCs ... Transgenic ESC lines expressing these constructs (T-eGFP or T-DsRed2) were obtained by electroporation and G418 selection. Cells were fixed in 4% paraformaldehyde ...