Identifiers
mitogen-activated protein kinase kinase 7
HUGO:MAP2K7 HGNC:6847 ENTREZ:5609 UNIPROT:O14733
PRKMK7
Maps_Modules
HMC:RESISTING_CELL_DEATH
Regulated Cell Death / APOPTOSIS
Regulated Cell Death / STARVATION_AUTOPHAGY
Regulated Cell Death / CASPASES
Regulated Cell Death / DEATH_RECEPTOR_PATHWAYS
Regulated Cell Death / MOMP_REGULATION
HMC:EVADING_GROWTH_SUPPRESSORS
Survival / MAPK
References
synonym:MKK7
PMID:17496911
MAP2K for JNK pathway. MEK7 is strongly activated by TNF and IL-1.
PMID:11274345
Maps_Modules
HMC:RESISTING_CELL_DEATH
Regulated Cell Death / APOPTOSIS
Regulated Cell Death / STARVATION_AUTOPHAGY
Regulated Cell Death / CASPASES
Regulated Cell Death / DEATH_RECEPTOR_PATHWAYS
Regulated Cell Death / MOMP_REGULATION
References
rc_re1731:( Regulated Cell Death ) PMID:17496911
Maps_Modules
HMC:RESISTING_CELL_DEATH
Regulated Cell Death / APOPTOSIS
Regulated Cell Death / STARVATION_AUTOPHAGY
Regulated Cell Death / CASPASES
Regulated Cell Death / DEATH_RECEPTOR_PATHWAYS
Regulated Cell Death / MOMP_REGULATION
References
rc_re1731:( Regulated Cell Death ) PMID:17496911
rc_re1316( Regulated Cell Death ):
PMID:12624093
in mouse embryonic cells, with targeted disruption of either MAP2K4 or MAP2K7, the phosphorylation pattern of JNK reveals sequential phosphorylation by these MAP2KsPMID:19037093
under glucose deprivation condition, ROS are generated leading to an inactivation of JNK activity
References
su_mpk1_mpk1_re157( Survival ):
MLK3 and MLK2 two MAP3Ks of JNK pathway can interact with RAC1 in a GTP-dependent manner.
MEKK2 and MEKK3 can activate JNK P38 and ERK pathways.
TAO kinases are novel MAP3Ks that specifically regulate P38s.
ASK1 is a MAP3K and can activate both JNK and P38 pathways.
MEKK1 selectively activates the endogenous JNK pathway. MEKK1 can activate MEK4 and MEK7 in vivo.
MEKK4 is a MAP3K and can activate both JNK and P38 pathways.
TAK1 is a MAP3K. It is able to activate both JNK and P38 pathways.
Endogenous TAK1 is activated by TGF-beta IL-1 and TNF. TAK1 can phosphorylate and activate MEK4 MEK3 and MEK6.
MLK3 has the potential to positively regulate the ERK / MAPK pathway by directly phosphorylating and activating MEK.
Expression of GADD45 genes in mammalian cells strongly activates co-expressed MTK1 as well as P38 and JNK the MAPKs downstream of MTK1. TAO kinases are MAP3Ks that function upstream of P38 and JNK.
PMID:11274345 PMID:12738796 PMID:18855897 PMID:21614932
References
su_mpk1_mpk1_re157( Survival ):
MLK3 and MLK2 two MAP3Ks of JNK pathway can interact with RAC1 in a GTP-dependent manner.
MEKK2 and MEKK3 can activate JNK P38 and ERK pathways.
TAO kinases are novel MAP3Ks that specifically regulate P38s.
ASK1 is a MAP3K and can activate both JNK and P38 pathways.
MEKK1 selectively activates the endogenous JNK pathway. MEKK1 can activate MEK4 and MEK7 in vivo.
MEKK4 is a MAP3K and can activate both JNK and P38 pathways.
TAK1 is a MAP3K. It is able to activate both JNK and P38 pathways.
Endogenous TAK1 is activated by TGF-beta IL-1 and TNF. TAK1 can phosphorylate and activate MEK4 MEK3 and MEK6.
MLK3 has the potential to positively regulate the ERK / MAPK pathway by directly phosphorylating and activating MEK.
Expression of GADD45 genes in mammalian cells strongly activates co-expressed MTK1 as well as P38 and JNK the MAPKs downstream of MTK1. TAO kinases are MAP3Ks that function upstream of P38 and JNK.
PMID:11274345 PMID:12738796 PMID:18855897 PMID:21614932
su_mpk1_mpk1_re156( Survival ):
MEK4 and MEK7 can activate all JNK isoforms (by phosphorylation).
PMID:11274345