Difference between revisions of "Kinase Subfamily ERK5"
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ERK5 ('''E'''xtracellular signal '''R'''egulated '''K'''inase) is a variant Erk-like MAPK found in most animals, and part of a variant MAPK cascade that includes the MEK5 MAP2K and the MEKK2 MAP3K. There is a single ERK5 in human, which is also known as MAPK7. | ERK5 ('''E'''xtracellular signal '''R'''egulated '''K'''inase) is a variant Erk-like MAPK found in most animals, and part of a variant MAPK cascade that includes the MEK5 MAP2K and the MEKK2 MAP3K. There is a single ERK5 in human, which is also known as MAPK7. | ||
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====Evolution==== | ====Evolution==== | ||
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====Control of activity==== | ====Control of activity==== | ||
Like most MAPK it is activated by dual phosphorylation of a TxY motif in the [[Activation loop]] by an upstream kinase (MEK5). Activation also induces translocation to the nucleus. | Like most MAPK it is activated by dual phosphorylation of a TxY motif in the [[Activation loop]] by an upstream kinase (MEK5). Activation also induces translocation to the nucleus. | ||
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====Domain Structure==== | ====Domain Structure==== |
Revision as of 05:44, 6 June 2023
Kinase Classification: Group CMGC: Family MAPK: Subfamily ERK5
ERK5 (Extracellular signal Regulated Kinase) is a variant Erk-like MAPK found in most animals, and part of a variant MAPK cascade that includes the MEK5 MAP2K and the MEKK2 MAP3K. There is a single ERK5 in human, which is also known as MAPK7.
Evolution
ERK5 is found as a single copy, only in animals. It is secondarily lost from most insects and nematodes, along with its upstream pathway members, MEK5 and MEKK2.
Control of activity
Like most MAPK it is activated by dual phosphorylation of a TxY motif in the Activation loop by an upstream kinase (MEK5). Activation also induces translocation to the nucleus.
Domain Structure
All ERK5 have a kinase domain close to the N-terminus, and about 300-400 AA of unannotated C-terminal tail. Conservation profiling suggests that the tail includes some conserved motifs and a novel domain near the C-terminal tip.
Biological Function
Mammalian ERK5 activates the muscle transcription factors MEF2A, C, and D [1], downstream of EGF signaling