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How does a cell differentiate?
How does a cell differentiate?
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Solution
Cellular Differentiation:
- Cell differentiation is the process through which identically derived cells give rise to cell types with various shapes and functions.
- Gene expression alterations lead to cell differentiation.
- This happens when various environmental signalling molecules activate or repress certain transcription factors that are required to express particular genes in the DNA.
- Inside cells, DNA is arranged into chromosomes.
- A multicellular organism needs differentiated cells because it can carry out specialized tasks for the body.
- The differentiated cells frequently lose their capacity to proliferate.
- The specific expression of the genome over time and space occurs during cell development.
- A cell just needs to alter the genes that will be expressed for differentiation into its unique form and function.
- Transcription factors are the main process by which genes are turned "on" or "off."
Different types of stem cells:
- A pluripotent stem cell has the potential to differentiate into many types of tissues but cannot support the full development of an organism.
- These are present in the inner cell mass of the blastocyst stage.
- A multipotent stem cell has the potential to differentiate into different cell lineages, such as red blood cells or white blood cells.
- An oligopotent stem cell is limited to a few different cell types.
- A unipotent cell is fully specialized and can only differentiate to generate more of its own specific cell type.
Cellular Differentiation:
- Cell differentiation is the process through which identically derived cells give rise to cell types with various shapes and functions.
- Gene expression alterations lead to cell differentiation.
- This happens when various environmental signalling molecules activate or repress certain transcription factors that are required to express particular genes in the DNA.
- Inside cells, DNA is arranged into chromosomes.
- A multicellular organism needs differentiated cells because it can carry out specialized tasks for the body.
- The differentiated cells frequently lose their capacity to proliferate.
- The specific expression of the genome over time and space occurs during cell development.
- A cell just needs to alter the genes that will be expressed for differentiation into its unique form and function.
- Transcription factors are the main process by which genes are turned "on" or "off."
Different types of stem cells:
- A pluripotent stem cell has the potential to differentiate into many types of tissues but cannot support the full development of an organism.
- These are present in the inner cell mass of the blastocyst stage.
- A multipotent stem cell has the potential to differentiate into different cell lineages, such as red blood cells or white blood cells.
- An oligopotent stem cell is limited to a few different cell types.
- A unipotent cell is fully specialized and can only differentiate to generate more of its own specific cell type.
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