These stem cells have the potential to differentiate into any cell type, including both the cells that form the body and those that contribute to the development of the placenta and other embryonic tissues.

Proteins that bind to specific receptors on the cell surface, stimulating cellular growth, proliferation, and differentiation

The outermost layer of the embryo; This layer will develop into the skin, the nervous system, and some sensory organs.

The second stage of cell differentiation in which the determined cell undergoes morphological and functional changes to become a specialized cell type. This stage involves significant changes in gene expression and cellular structures.

These stem cells can develop into almost any cell type in the body, but they cannot form the placenta or other extra-embryonic tissues. These cells give rise to all the tissues and organs of the developing fetus.

A series of molecular interactions that regulate fundamental cellular processes such as differentiation 

The middle layer of the embryo. This layer gives rise to muscles, bones, blood vessels, the heart, kidneys, and reproductive organs.

The third stage where differentiated cells undergo additional development and refinement to fully achieve their functional capabilities. This stage ensures that the cell is completely adapted to perform its specialized role effectively within its tissue or organ system.

These stem cells are more specialized and can differentiate into a limited range of cell types within a particular tissue or organ. They are responsible for maintaining and repairing the tissues in which they are found.

The three foundational layers of cells that form early in embryonic development.

The innermost layer of the embryo. This layer will become the digestive tract , liver, pancreas, lungs, and other internal organs.

These proteins bind directly to DNA in order to express certain genes and repress others.