In a groundbreaking experiment, researchers have brought a mouse to life with the help of a single-celled organism that ...

In fact, there were only single-celled organisms that could move around through the waters of the oceans. Needless to say, ...

Diffusion component mapping of a robust single-cell RNA sequencing dataset helps to ... mapping was again conducted on a subset of the data that pooled neural cells from E8.5–9.0 embryos. A strong ...

At the 8-cell stage of mouse embryo development, the coordination between DNA unwinding and replication appears to improve. © ...

Around 700 million years ago, the animal kingdom began to branch off from single-celled ... generated stem cells to help form a living, breathing mouse from a developing embryo, according to ...

Each one of us starts off as a single cell when an egg and a ... The cells on the inside layer of this very early embryo can make all of the cell types needed in your body. They're called stem ...

A recent study delves into the pivotal role of Setd2, a histone methyltransferase enzyme, in embryonic development within mice.

Scientists have developed human stem cell models containing the notochord, a critical tissue that guides spine and nervous system formation during embryonic development.

Can a single protein-encoding gene determine ... (PAPC), which is excluded when dividing cells migrate and form the notochord in the embryo. The findings were published in Scientific Reports.

Activator of G-protein signaling C-terminus serves as a variable element to induce asymmetric cell division, facilitating developmental diversity among species.