Tissue is an ensemble of cells that make up the organs in the body. Stem cells are cells that can be transformed into any of the specialized cells that can be found in the tissues of the human body.
Cells up to 8 cell stage in human embryo can develop in any kind of cell in body. Inner cell mass in blastocyst can develop into any kind of cell in human body.
Stem cells divide through mitosis making two cells known as daughter cells. One daughter cell becomes a stem cell and the other cell differentiates into, or turns into, the tissue the stem cell is meant to maintain.
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The tissue in plants that contains stem cells is called meristematic tissue. This tissue is responsible for cell division and growth in plants, allowing for the formation of new tissues and organs. It is typically found at the tips of roots and shoots.
An embryonic stem cell potentially can develop into ANY cell in the body theoretically without limit to replenish, and an adult stem cell is only able to mature into a specialised tissue cell from which tissue the cell is positioned.
Cells up to 8 cell stage in human embryo can develop in any kind of cell in body. Inner cell mass in blastocyst can develop into any kind of cell in human body.
A stem cell that can differentiate into any cell (tissue) of the three germ layers.
Stem cells divide through mitosis making two cells known as daughter cells. One daughter cell becomes a stem cell and the other cell differentiates into, or turns into, the tissue the stem cell is meant to maintain.
Human embryonic and adult stem cells each have advantages and disadvantages regarding potential use for cell-based regenerative therapies. ... Adult stem cells are thought to be limited to differentiating into different cell types of their tissue of origin. Embryonic stem cells can be grown relatively easily in culture.
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stem cells are being used in research , treatment , tissue culture and cloning etc.
Human embryonic and adult stem cells each have advantages and disadvantages regarding potential use for cell-based regenerative therapies. ... Adult stem cells are thought to be limited to differentiating into different cell types of their tissue of origin. Embryonic stem cells can be grown relatively easily in culture.
An embryonic stem cell potentially can develop into ANY cell in the body theoretically without limit to replenish, and an adult stem cell is only able to mature into a specialised tissue cell from which tissue the cell is positioned.
The tissue in plants that contains stem cells is called meristematic tissue. This tissue is responsible for cell division and growth in plants, allowing for the formation of new tissues and organs. It is typically found at the tips of roots and shoots.
An embryonic stem cell potentially can develop into ANY cell in the body theoretically without limit to replenish, and an adult stem cell is only able to mature into a specialised tissue cell from which tissue the cell is positioned.
Adult stem cells are undifferentiated cells, found throughout the body after development that multiply by cell division to replenish dying cells and regenerate damaged tissues. Also known as somatic stem cells, they can be found in juvenile as well as adult animals and human bodies. Creative Bioarray provides adult stem cells from various tissue/organs of human, mouse and rat.
The animal cells that are most similar to undifferentiated plant cells in a tissue culture are likely stem cells. Stem cells have the ability to divide and differentiate into various cell types, mimicking the versatility and self-renewal capacity observed in undifferentiated plant cells.