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Study propose that the pathogen-responsive MPK3 (show MAPK3 Proteins)/MPK6 cascade and ABA are two essential signaling pathways that control, respectively, the organic acid metabolism and ion channels, two main branches of osmotic regulation in guard cells that function interdependently to control stomatal opening/closure.
MPK6-mediated regulation of MYB15 plays an important role in cold stress signaling in Arabidopsis.
Data report that MPK3/MPK6 and their substrate ERF6 promote the biosynthesis of IGSs and the conversion of I3G to 4MI3G, a target of PEN2/PEN3-dependent chemical defenses in plant immunity.
Data show that the protein kinases MPK3 (show MAPK3 Proteins) and MPK6 can both interact with SPOROCYTELESS/NOZZLE (SPL (show SGPL1 Proteins)) in vitro and in vivo and can phosphorylate the SPL (show SGPL1 Proteins) protein in vitro.
AIK1-MKK5 (show MAP2K5 Proteins)-MPK6 cascade functions in the abscisic acid regulation of primary root growth and stomatal response.
A novel mechanism for PIN1 phosphorylation involving MKK7 (show MAP2K7 Proteins) and MPK6 in shoot branching regulation in Arabidopsis.
MKK4 (show MAP2K4 Proteins), MKK5 (show MAP2K5 Proteins), MKK7 (show MAP2K7 Proteins), and MKK9, are responsible for the activation of MPK3 (show MAPK3 Proteins) and MPK6 by melatonin, indicating that melatonin-mediated innate immunity is triggered by MAPK (show MAPK1 Proteins) signaling through MKK4 (show MAP2K4 Proteins)/5/7/9-MPK3 (show MAPK3 Proteins)/6 cascades.
Phosphatase AP2C1, as well as AP2C1-targeted MPK3 (show MAPK3 Proteins) and MPK6, are important regulators of plant-nematode interaction, where the co-ordinated action of these signalling components ensures the timely activation of plant defence.
Mitogen-activated protein kinase 6 (MPK6) promoted C-terminal end of ORE3/EIN2 (CEND cleavage and nuclear translocation. Nuclear CEND accumulated ETHYLENE INSENSITIVE3 (EIN3), a transcription factor that accelerates MeJA-induced leaf senescence.
Results demonstrated the contribution of MPK3 (show MAPK3 Proteins) and MPK6 to riboflavin-induced resistance.
There was significant association between p38gamma (show MAPK12 Proteins) expression and esophageal squamous cell carcinoma clinical stage, lymph nodes metastases, and tumor volume. p38delta overexpression can promote tumorigenesis in nude mice model xenografted with Eca109 cells whose basal level of p38delta was stably over-expressed and p38gamma (show MAPK12 Proteins) was stably knocked down.
Study revealed a post-translational regulation of TDP2 (show TDP2 Proteins) activity and discovered a new role of ERK3 (show MAPK4 Proteins) in increasing cancer cells' DNA damage response and chemoresistance to Top2 (show TOP2A Proteins) inhibitors.
This study reveals a novel pathway that directly links ErbB4 (show ERBB4 Proteins) and p38gamma (show MAPK12 Proteins) to the transcriptional machinery of NKx2.5 (show NKX2-5 Proteins)-GATA4 (show GATA4 Proteins) complex which is critical for cardiomyocyte formation during mammalian heart development.
during interphase ERK3 (show MAPK4 Proteins) is mainly resident in the nucleoplasm in association with ribonuclear proteins involved in early pre-mRNA splicing, it undergoes cell cycle-dependent redistribution and, during apoptosis
Taken together our data suggest that as cells initiate adhesion to matrix increasing levels of ERK3 (show MAPK4 Proteins) at the cell periphery are required to orchestrate cell morphology changes which can then drive migratory behavior.
p38gamma and p38delta reprogram liver metabolism by modulating neutrophil infiltration and provide a potential target for NAFLD therapy
MAPK6 could rescue the cell growth induced by miR499a and HBV
analysis of how allosteric regulation of p38gamma and PTPN3 involves a PDZ domain-modulated complex formation
ERK3 (show MAPK4 Proteins) regulates endothelial cell migration, proliferation and tube formation by upregulating SRC-3 (show NCOA3 Proteins)/SP-1 (show PSG1 Proteins)-mediated VEGFR2 (show KDR Proteins) expression.
These findings further expand distinct roles of cyclin D3 (show CCND3 Proteins) and suggest the potential activity of ERK3 (show MAPK4 Proteins) in cell proliferation.
ERK3 (show RYK Proteins) biological activity is regulated by its cellular abundance through the control of protein stability
Data show that extracellular-regulated kinase 3 (ERK3 (show RYK Proteins)) specifically interacts with the MAPK-activated protein kinase 5 (MK5 (show MAPKAPK5 Proteins) or PRAK (show MAPKAPK5 Proteins)) in vitro and in vivo.
Results demonstrate a specific interaction between extracellular signal-regulated kinase 3 (ERK3) and mitogen-activated protein kinase-activated protein kinase-5 (MK5 (show MAPKAPK5 Proteins)).
p38gamma (show MAPK12 Proteins) MAP kinase (show MAPK1 Proteins) (SAPK3/p38gamma (show MAPK12 Proteins)) was shown to catalyse phosphorylation of SAP97 (show DLG1 Proteins).
Results show that Cdo (show CDO1 Proteins) is important for full Abl kinase activity, and Abl (show ABL1 Proteins) is necessary for full activation of p38 MAPK (show MAPK14 Proteins), during myogenic differentiation.
The protein encoded by this gene is a member of the Ser/Thr protein kinase family, and is most closely related to mitogen-activated protein kinases (MAP kinases). MAP kinases also known as extracellular signal-regulated kinases (ERKs), are activated through protein phosphorylation cascades and act as integration points for multiple biochemical signals. This kinase is localized in the nucleus, and has been reported to be activated in fibroblasts upon treatment with serum or phorbol esters.
, MAP kinase 6
, MAP kinase isoform p97
, MAPK 6
, extracellular signal-regulated kinase 3
, extracellular signal-regulated kinase, p97
, protein kinase, mitogen-activated 5
, protein kinase, mitogen-activated 6
, Erk-3 related
, mitogen activated protein kinase 4
, mitogen activated protein kinase 6
, protein kinase, mitogen activated kinase 4
, extracellular related kinase 3
, mitogen-activated protein kinase 6