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

The brain extracellular matrix plays a critical role in synaptic plasticity, including experience/adaptive-based changes in ...

With this blueprint, they produced a precise sequence of chemical signals and used this to coax human stem cells into forming ...

For the first time, the notochord a tissue in the developing embryo that serves as a navigation system, telling cells where to build the spine and nervous system (the trunk) has been included in human ...

It is possible to substantially enhance these antibodies’ therapeutic potential via humanization, effectively reducing ...

A new study may overturn the century-old understanding of how neurons are shaped—but not everyone is on board.

Figure 1: Human LAG-3 homodimer (with domains D1, D2, D3 and D4) binding to two separate HLA-II (MHC-II) molecules on the ...

A new breakthrough for spine and nervous system formation was successfully achieved by researchers where they were able to ...

Mitochondria, the cell’s energy centers, play a vital role in regulating cellular processes, including growth and survival.

A team of researchers led by Susan Hafenstein, PhD, Professor and CryoEM Director at The Hormel Institute, University of ...

For the first, scientists have generated human stem cell models containing notochord - a tissue in the developing embryo.

Researchers discovered that neurons in the medial frontal cortex encode abstract progress through sequences of behaviors, enabling flexible task mapping and rapid adaptation to new structures.