like any cell the nucleus of a stem cell contains DNA. DNA contains instructions for cells and this is what tells them how to specialise and then they become specialised
Self-renewal: Stem cells can replicate and produce more stem cells indefinitely. Potency: Stem cells have the potential to differentiate into various specialized cell types. Longevity: Stem cells have a long lifespan compared to other cells in the body.
Stem cells
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Stem cells are needed because they become specialized cells within the body, helping organs regenerate and heal.
Immature precursors that give birth to new specialized cells in the body are called stem cells. Stem cells have the ability to self-renew and differentiate into various types of cells, depending on the signals they receive from their environment. They are crucial for tissue repair, regeneration, and normal development.
Self-renewal: Stem cells can replicate and produce more stem cells indefinitely. Potency: Stem cells have the potential to differentiate into various specialized cell types. Longevity: Stem cells have a long lifespan compared to other cells in the body.
Stem cells
stem cells exist throughout the body and they respond to certain needs in the body by becoming specialized cells.
zygote, stem cells, cell differentiation zygote, stem cells, cell differentiation
stem cells
Stem cells are needed because they become specialized cells within the body, helping organs regenerate and heal.
Stem cells and leaf cells are two speacilized plant cells.
stem cells
A stem cell can become any other type of specialized cell.
An undifferentiated cell is a basic cell that has not yet specialized into a specific cell type. Stem cells are a type of undifferentiated cell that can differentiate into different cell types. Nerve, skin, and blood cells are specialized cells that have differentiated from stem cells.
Immature precursors that give birth to new specialized cells in the body are called stem cells. Stem cells have the ability to self-renew and differentiate into various types of cells, depending on the signals they receive from their environment. They are crucial for tissue repair, regeneration, and normal development.
The order from unspecialized stem cells to highly specialized mature bone cells involves several stages: first, hematopoietic stem cells differentiate into mesenchymal stem cells. These mesenchymal stem cells then become osteoprogenitor cells, which further differentiate into osteoblasts, the bone-forming cells. As osteoblasts mature, they become embedded in the bone matrix and eventually differentiate into osteocytes, the most specialized bone cells responsible for maintaining bone tissue. This process is regulated by various signals and factors that guide the differentiation at each stage.