I think it's when a stem cell from an embryo is taken and has repaired a tissue.
(I think) Anyone else know?
Stem cell culture refers to the process of growing and maintaining stem cells in a laboratory setting. This involves providing the necessary conditions, such as specific growth factors and nutrients, to support the proliferation and differentiation of stem cells. Stem cell culture is essential for research, drug development, and regenerative medicine applications.
When a stem cell becomes a specific type of cell, the process is called "differentiation." During differentiation, stem cells undergo changes that lead to the development of specialized cells with distinct functions, such as muscle cells, nerve cells, or blood cells. This process is crucial for growth, development, and tissue repair in multicellular organisms.
Unipotent
Auxins promote stem growth by stimulating cell elongation and differentiation. Cytokinins also play a role in stem growth by promoting cell division. Ethylene and auxins are involved in fruit development, with ethylene being particularly important in ripening fruit.
A
stem cell
Stem cell culture refers to the process of growing and maintaining stem cells in a laboratory setting. This involves providing the necessary conditions, such as specific growth factors and nutrients, to support the proliferation and differentiation of stem cells. Stem cell culture is essential for research, drug development, and regenerative medicine applications.
Stem cells differentiate into specific cell types through a process called cell signaling. This involves signals from the surrounding environment that instruct the stem cell to become a particular type of cell, such as a muscle cell or a nerve cell. These signals activate specific genes within the stem cell, guiding its development into the desired cell type.
When a stem cell receives a signal, it undergoes a process called differentiation, where it transforms into a specific cell type based on the signal it received. This allows the stem cell to adapt and contribute to the development or repair of different tissues in the body.
A stem cell can become any other type of specialized cell.
A stem cell differentiates by activating specific genes that direct its development into specialized cell types. This process involves epigenetic changes that determine which genes are turned on or off, leading to the formation of different cell types with specific functions.
When a stem cell becomes a specific type of cell, the process is called "differentiation." During differentiation, stem cells undergo changes that lead to the development of specialized cells with distinct functions, such as muscle cells, nerve cells, or blood cells. This process is crucial for growth, development, and tissue repair in multicellular organisms.
The process of an embryonic stem cell developing into a specific type of cell, such as a nerve, muscle, skin, or blood cell, is called differentiation. In differentiation, the stem cell undergoes changes in gene expression and morphology to become specialized for its specific function in the body.
Unipotent
Auxins promote stem growth by stimulating cell elongation and differentiation. Cytokinins also play a role in stem growth by promoting cell division. Ethylene and auxins are involved in fruit development, with ethylene being particularly important in ripening fruit.
A
The type of stem cell that can develop into any kind of cell in the human body, but not into placenta cells, is called a pluripotent stem cell. Embryonic stem cells are the most well-known example of pluripotent stem cells, as they can give rise to nearly all cell types in the body during development, except for those that contribute to the placenta. These cells hold significant potential for regenerative medicine and research.