What is the Difference Between ERK1 and ERK2?
🆚 Go to Comparative Table 🆚ERK1 and ERK2 are both members of the mitogen-activated protein kinase (MAPK) family, which play crucial roles in various cellular processes such as differentiation, migration, and proliferation. They share a high degree of sequence similarity, with 84% identity in a given mammal. However, there are some differences between ERK1 and ERK2:
- Size and structure: Human ERK1 is larger than ERK2 due to an extension of 17 amino acids at its N-terminal and 2 amino acids at its C-terminal.
- Gene size: In mammals, ERK2 genes are on average 15 times larger than ERK1 genes.
- Expression levels: ERK1 and ERK2 are expressed ubiquitously but not at the same level in most tissues. ERK1 is expressed at lower levels than ERK2 in most mouse tissues.
- Activation and function: Both ERK1 and ERK2 are activated by the same external growth factor agonists and are involved in various cellular processes. However, some studies have demonstrated that different outcomes can be observed with ERK1 or ERK2 depletion, and ERK2, but not ERK1, has been shown to play a role in the induction of epithelial-to-mesenchymal transformation.
- Specialization: Apart from the differences in expression levels and gene size, it is possible that very fine specializations exist between ERK1 and ERK2, such as a slightly stronger affinity for a substrate or an interactor protein.
Despite their similarities, ERK1 and ERK2 may have specific roles or functional redundancy in certain cellular processes. Further research is needed to fully understand the differences and specializations between these two kinases.
Comparative Table: ERK1 vs ERK2
The following table summarizes the differences between ERK1 and ERK2:
Feature/Property | ERK1 | ERK2 |
---|---|---|
Gene size | On average 15 times smaller than ERK2 in mammals | On average 15 times larger than ERK1 in mammals |
Protein sequence similarity | 84% identical in a given mammal | 84% identical in a given mammal |
N-terminal extension | Human ERK1 has an extension of 17 amino acids at its N-terminal | No extension at the N-terminal |
Nuclear localization | Slower than ERK2 due to the 20 amino acid extension | Faster than ERK1 |
Expression levels | Expressed at different levels, with ERK1 generally having lower expression levels | Expressed at different levels, with ERK2 generally having higher expression levels |
Specific functions | In hepatocytes, ERK1 silencing has no observable biological consequences, while ERK2 silencing does | In hepatocytes, ERK2 silencing has no observable biological consequences, while ERK1 silencing does |
In lung metastasis processes in triple-negative breast cancer | ERK1 and ERK2 have different functions, with ERK2 supporting the cancer stem cell phenotype and metastasis | ERK1 and ERK2 have different functions, with ERK2 supporting the cancer stem cell phenotype and metastasis |
Despite their similarities, ERK1 and ERK2 exhibit distinct functional roles and subcellular localizations, which may contribute to their specific roles in various biological processes.
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