What is the Difference Between Mitogen and Growth Factor?
🆚 Go to Comparative Table 🆚Mitogens and growth factors are both involved in the regulation of the cell cycle, but they have distinct functions and effects on cells. The main differences between mitogens and growth factors are:
- Function: Mitogens are small proteins that induce cells to begin cell division, specifically triggering mitosis. Growth factors, on the other hand, stimulate cell proliferation, wound healing, and sometimes cellular differentiation.
- Effect on Cell Division: Mitogens specifically act to initiate cell division, while growth factors can have a broader range of effects, including promoting an increase in cell mass by stimulating the synthesis and inhibiting the degradation of macromolecules.
- Overlap: Some extracellular signal proteins, such as platelet-derived growth factor (PDGF), can act as both growth factors and mitogens, stimulating both cell growth and cell-cycle progression.
In summary, mitogens are proteins that specifically induce cell division, while growth factors are substances that stimulate cell proliferation, wound healing, and occasionally cellular differentiation. Although some proteins can act as both mitogens and growth factors, they have distinct functions and effects on cells.
Comparative Table: Mitogen vs Growth Factor
The main difference between a mitogen and a growth factor lies in their functions. A mitogen is a small protein that induces cell division, while a growth factor is a naturally occurring substance capable of stimulating cell proliferation, wound healing, and cellular differentiation. Here is a table comparing the two:
Feature | Mitogen | Growth Factor |
---|---|---|
Function | Induces cell division | Stimulates cell proliferation, wound healing, and cellular differentiation |
Role in Cell Cycle | Triggers mitosis | Stimulates cell growth |
Cell Types | Specific for certain cell types | Acts on a broader range of cell types |
While all mitogens are growth factors, not all growth factors are mitogens. Both play important roles in regulating cell growth and development, but they have distinct effects on cells and are not interchangeable terms.
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