A team at Johns Hopkins Medicine has focused their work on myelin development using oligodendrocytes to help study conditions like MS.

Explore scalable strategies for iPSC-derived islet differentiation using GMP-grade activin A and KGF to advance diabetes ...

In experiments with mice, Johns Hopkins Medicine scientists report new evidence that precursors of myelin-producing cells—one ...

The Notch signaling pathway plays a pivotal role in determining cell fate, especially in the development and function of T cells. But mimicking this highly mechanical, contact-dependent pathway in the ...

A new study led by researchers at the Johns Hopkins Kimmel Cancer Center, its Bloomberg~Kimmel Institute for Cancer ...

A genome-wide CRISPR study maps 331 genes essential for early brain development, identifying PEDS1 as a new ...

Understanding how cells transform into specialized types during human development is a central challenge in biology. This complex process, known as cell differentiation, holds the key to understanding ...

A large genetic screen has revealed how stem cells transform into brain cells, exposing hundreds of genes that make this ...

In experiments with mice, Johns Hopkins Medicine scientists report new evidence that precursors of myelin-producing cells - one of the few brain cell types that continue to be produced in the adult ...

Chimpanzee naive pluripotent stem cells (PSCs) can now be grown in cellular cultures, reveals a recent study. They successfully created chimpanzee early embryo models, called 'blastoids,' and found ...