Base editing in human embryos reveals that NANOG is the one gene required to form every body tissue. Cambridge’s landmark ...

The use of genome editing in early embryos has pulled back the curtain on the role of one of the key genes that orchestrates ...

Illustration of an embryo in the early stages of development. (Design Cells/iStock/Getty Images) The first moments of life ...

What if you could precisely change the genome of a pre-implantation human embryo and then safely use that embryo to try to ...

Research led by the University of Cambridge Loke Center for Trophoblast Research has shown that a genome-editing technique ...

Chinese researchers have taken a big step toward a world in which we can cultivate organs for transplant, with the first-ever ...

A human embryo ‘base edited’ so that it can’t produce a key protein (right), fails to form the mass of cells that gives rise ...

The stem cell-based embryo model (SCBEM) takes advantage of the flexibility of pluripotent stem cells (non-reproductive cells that can give rise to many different types of cells) to resemble that of ...

An international team of experts in embryology and bioethics has published the first white paper on the use of embryonic ...

Research led by the University of Cambridge Loke Centre for Trophoblast Research has shown that a genome editing technique ...

Clear rules governing human embryo research must be established to enable regulators, researchers and funders to assess whether stem cell-generated models should be considered as human embryos, two ...