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

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

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 ...

We have identified the gene that, when activated, initiates the developmental programme that results in cells forming a human ...

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

Altering a single gene in human embryonic cells has revealed that NANOG plays a key role in early embryo development, ...

A new study uses precise base editing on human embryos for the first time, proving the NANOG gene is the master switch for body development.

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

June studies on NANOG and disease genes highlight potential of base editing and force new discussion on limits of heritable ...

Researchers led by developmental biologist Kathy Niakan at the University of Cambridge have used base editing in human embryos to learn more about human embryonic development. By deactivating a gene ...

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

Base editing, the process used to make the changes, only nicks one strand of DNA, avoiding the major DNA errors that made ...