Stem Cells (DP IB Biology)
Revision Note
Stem Cell Properties
A stem cell is a cell that can divide (by mitosis) an unlimited number of times
Each new cell (produced when a stem cell divides) has the potential to remain a stem cell or to develop into a specialised cell such as a blood cell or a muscle cell (by a process known as differentiation)
Stem Cell Niches
After differentiation, a stem cell is no longer considered a stem cell
However, some stem cells do remain in specific locations in the human body, this is called the stem cell niche
Their presence gives the capacity for these tissues to regenerate and repair
Some of the tissues which retain stem cells within a niche include
Bone marrow:
Bone marrow provides a niche for stem cells which are used to replace red blood cells, white blood cells and platelets
This is important for continual production of these cells which are required indefinitely
Hair follicle:
This niche is located at the root of the hair where the hair is anchored into the skin
Stem cells here promote continual hair growth
The environment provided by the niche must have
The ability to maintain an inactive state of the stem cells
The ability to stimulate stem cell proliferation and differentiation
Stem Cell Potency
The ability of stem cells to differentiate into more specialised cell types is known as potency
There are four types of potency:
Totipotency – totipotent stem cells are stem cells that can differentiate into any cell type found in an embryo, as well as extra-embryonic cells (the cells that make up the placenta)
The zygote formed when a sperm cell fertilises an egg cell is totipotent
Also the embryonic cells up to the 16-cell stage of human embryo development are totipotent
Pluripotency - pluripotent stem cells are embryonic stem cells that can differentiate into any cell type found in an embryo but are not able to differentiate into extra-embryonic cells (the cells that make up the placenta)
Multipotency - multipotent stem cells are adult stem cells that can differentiate into closely related cell types
For example bone marrow stem cells differentiate into different blood cells
Unipotency - unipotent stem cells are adult cells that can only differentiate into their own lineage
For example heart muscle cells (cardiomyocytes) can generate new cardiomyocytes through the cell cycle to build and replace heart muscle. Most cells in animal bodies are unipotent
Stem Cell Potency Diagram
There are different levels of potency that cells can have. Totipotent cells have the highest potency and can therefore differentiate into any type of cell. Unipotent cells have the lowest potency, only being able to divide into one cell type.
Examiner Tips and Tricks
Remember the two key properties of stem cells are that they can self-renew (capacity to divide) and can differentiate. Make sure you learn the levels of potency of stem cells described above, and what range of cell types these stem cells can differentiate into.
Don’t forget, while still classed as stem cells (as they can divide any number of times), only a limited range of specialised cells can be formed from adult stem cells as they have already partially differentiated. For example, stem cells in bone marrow can only produce cells that differentiate into the different types of blood cells.
You've read 0 of your 5 free revision notes this week
Sign up now. It’s free!
Did this page help you?