What is the Difference Between Cell Line Cell Strain and Cell Type?
🆚 Go to Comparative Table 🆚The difference between cell line, cell strain, and cell type lies in their role in cell culturing and their characteristics:
- Cell Line: A cell line is a subculture obtained from a primary culture, developed from a single cell, and consists of cells with a uniform genetic make-up. It is typically aneuploid, which means it has an abnormal number of chromosomes, and can grow indefinitely through serial passaging. Cell lines are prepared by continuously passaging primary cell cultures.
- Cell Strain: A cell strain is a subpopulation of a cell line that has been positively selected from the culture, by cloning or some other method. It is often characterized by unique behavioral patterns and may possess additional genetic changes since the initiation of the strain. Cell strains can have a finite lifespan and are not capable of growing through serial passaging. They are considered euploid, meaning they have a normal number of chromosomes.
- Cell Type: Cell type refers to all cells with a common phenotype, such as keratinocyte or melanocyte. This term includes all genetically identical cells that are morphologically and phenotypically different from other cell types. Cells with a common phenotype are considered the same cell type, regardless of their donor.
In summary, cell lines are continuous cultures of cells with a uniform genetic make-up, cell strains are subpopulations of cell lines with unique behavioral patterns, and cell types refer to groups of cells with a common phenotype.
Comparative Table: Cell Line Cell Strain vs Cell Type
Here is a table that outlines the differences between cell lines, cell strains, and cell types:
| Feature | Cell Line | Cell Strain | Cell Type |
|---|---|---|---|
| Definition | A cell line is a subculture obtained from a primary culture. | A cell strain is a subpopulation of a cell line, developed from a single cell and consisting of cells with a uniform genetic make-up. | A cell type refers to the morphologically and phenotypically different group of cells found in an organism. |
| Potential to Divide | Cell lines have an infinite potential to divide. | Cell strains have a finite potential to divide. | Cell types have a finite potential to divide. |
| Lifespan | Cell lines can have a finite lifespan or an indefinite lifespan. | Cell strains have a finite lifespan. | Cell types have a finite lifespan. |
| Growth | Cell lines can grow through serial passaging. | Cell strains are incapable of growing through serial passaging. | Cell types can grow and divide in the organism. |
| Genetic Make-up | Cell lines are aneuploid populations of cells. | Cell strains are euploid populations of cells. | Cell types have a common phenotype, such as keratinocytes or melanocytes. |
In summary, cell lines are subcultures obtained from primary cultures and can be grown indefinitely, while cell strains are subpopulations of cell lines with a uniform genetic make-up and a finite lifespan. Cell types refer to morphologically and phenotypically different groups of cells found in an organism.
- Primary Cell Culture vs Cell Line
- Species vs Strain
- Clone vs Strain
- Cell Determination vs Cell Differentiation
- Stem Cells vs Differentiated Cells
- Finite vs Continuous Cell Lines
- Tissue vs Cell
- Cellular Differentiation vs Cell Division
- Stem Cells vs Normal Cells
- Cell Proliferation vs Differentiation
- Cell Biology vs Molecular Biology
- Plant vs Animal Cells
- Adherent vs Suspension Cell Lines
- Cancer Cells vs Normal Cells
- Progenitor Cells vs Stem Cells
- Specialized Cells vs Stem Cells
- Animal Cell vs Plant Cell
- Primary vs Secondary Cell Culture
- Cell Division vs Mitosis