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Activation loop phosphorylation of ERK3/ERK4 by group I p21 (zeige CDKN1A Proteine)-activated kinases (PAKs) defines a novel PAK-ERK3/4-MAPK-activated protein kinase 5 (zeige MAPKAPK5 Proteine) signaling pathway.
Data defined a novel MK5 (zeige MAPKAPK5 Proteine) interaction motif (FRIEDE) within both ERK4 and ERK3 that is essential for binding to the C-terminal region of MK5 (zeige MAPKAPK5 Proteine).
Data show that in contrast to ERK3, ERK4 (MAPK4) is a stable protein and binds to MAPKAPK-5 (zeige MAPKAPK5 Proteine). Interaction of ERK4 with MAPKAPK-5 (zeige MAPKAPK5 Proteine) leads to translocation of MAPKAPK-5 (zeige MAPKAPK5 Proteine) to the cytoplasm and to its activation by phosphorylation. ERK4 can form dimers with ERK3.
Results uncover a unique role for ERK3 (zeige RYK Proteine), dependent on its kinase activity, during T cell development and show that this atypical MAPK (zeige MAPK1 Proteine) is essential to sustain CD4 (zeige CD4 Proteine)(+) CD8 (zeige CD8A Proteine)(+) (DP) thymocytes survival during RAG-mediated rearrangements.
The atypical MAPK (zeige MAPK1 Proteine) ERK3 (zeige RYK Proteine) is a new and important regulator of T cell receptor-induced T cell activation.
Data suggest that ERK3 (zeige RYK Proteine) is crucial for spindle stability and required for the metaphase-anaphase transition in mouse oocyte maturation.
Data suggest that Erk4 is dispensable for mouse embryonic development and reveals that Erk3 (zeige RYK Proteine) and Erk4 have acquired specialized functions through evolutionary diversification.
a critical role for Erk3 (zeige RYK Proteine) in the establishment of fetal growth potential and pulmonary function in the mouse
ERK3 (zeige RYK Proteine) biological activity is regulated by its cellular abundance through the control of protein stability
Data show that extracellular-regulated kinase 3 (ERK3 (zeige RYK Proteine)) specifically interacts with the MAPK-activated protein kinase 5 (MK5 (zeige MAPKAPK5 Proteine) or PRAK (zeige MAPKAPK5 Proteine)) in vitro and in vivo.
Results demonstrate a specific interaction between extracellular signal-regulated kinase 3 (ERK3 (zeige MAPK6 Proteine)) and mitogen-activated protein kinase-activated protein kinase-5 (MK5 (zeige MAPKAPK5 Proteine)).
p38gamma (zeige MAPK12 Proteine) MAP kinase (zeige MAPK1 Proteine) (SAPK3/p38gamma (zeige MAPK12 Proteine)) was shown to catalyse phosphorylation of SAP97 (zeige DLG1 Proteine).
Results show that Cdo (zeige CDO1 Proteine) is important for full Abl kinase activity, and Abl (zeige ABL1 Proteine) is necessary for full activation of p38 MAPK (zeige MAPK14 Proteine), during myogenic differentiation.
AvrRpt2 specifically blocks the flagellin (zeige FliC Proteine)-induced activation of MPK4.
Data show that MPK4 phosphorylation of MYB75 increases its stability and is essential for light-induced anthocyanin accumulation. Our findings reveal an important role for a MAPK (zeige MAPK1 Proteine) pathway in light signal transduction.
ASR3 functions as a transcriptional repressor regulated by microbe-associated molecular patterns-activated MPK4 to fine-tune plant immune gene expression.
Mitogen-activated protein kinase 4 is a salicylic acid-independent regulator of growth but not of photosynthesis in Arabidopsis
Treatment of Arabidopsis with a membrane rigidifier, DMSO, causes MPK4 activation concomitantly with MEKK1 (zeige MAP3K1 Proteine) and MKK2 (zeige MAP2K2 Proteine) phosphorylation.
Data indicate that MEKK2 (zeige MAP3K2 Proteine) is required for the mekk1 (zeige MAP3K1 Proteine), mkk1 (zeige MAP2K1 Proteine) mkk2 (zeige MAP2K2 Proteine), and mpk4 autoimmune phenotypes.
Arabidopsis MPK4 can interact with and be phosphorylated by the cytokinesis-related MAP kinase (zeige MAPK1 Proteine) kinase, AtMKK6 (zeige MAP2K6 Proteine).
MPK4 activity was found to compromise effector-triggered immunity conditioned by the Toll Interleukin-1 Receptor-nucleotide binding (NB)-Leu-rich repeat (LRR) receptors RPS4 and RPP4 but not by the coiled coil-NB-LRR receptors RPM1 and RPS2.
Data suggest that the MEKK1 (zeige MAP3K1 Proteine)-MKK1 (zeige MAP2K1 Proteine)/MKK2 (zeige MAP2K2 Proteine)-MPK4 kinase cascade negatively regulates MEKK2 (zeige MAP3K2 Proteine) and activation of MEKK2 (zeige MAP3K2 Proteine) triggers SUMM2-mediated immune responses.
Findings show that seedling survival of prolonged oxygen deprivation was improved in transgenics that ectopically overexpress MPK3 (zeige MAPK3 Proteine), MPK4 and MPK6 (zeige MAPK6 Proteine).
Mitogen-activated protein kinase 4 is a member of the mitogen-activated protein kinase family. Tyrosine kinase growth factor receptors activate mitogen-activated protein kinases which then translocate into the nucleus where it phosphorylates nuclear targets.
, MAP kinase 4
, MAP kinase isoform p63
, extracellular signal-regulated kinase 4
, MAPK 4
, mitogen activated protein kinase 4
, Erk-3 related
, MAP kinase 6
, MAPK 6
, extracellular signal-regulated kinase 3
, mitogen activated protein kinase 6
, protein kinase, mitogen activated kinase 4
, LOW QUALITY PROTEIN: mitogen-activated protein kinase 4