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Query: EC:2.7.12.2 (MEK)
 18,161 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two cDNA clones, cATMPK1 and cATMPK2, encoding MAP kinases (mitogen-activated protein kinases) have been cloned from Arabidopsis thaliana and their nucleotide sequences have been determined. Putative proteins encoded by ATMPK1 and ATMPK2 genes, designated ATMPK1 and ATMPK2, contain 370 and 376 amino acid residues, respectively, and are 88.7% identical at the amino acid sequence level. ATMPK1 and ATMPK2 exhibit significant similarity to rat ERK2 (49%) and Xenopus MAP kinase (50%). The amino acid residues corresponding to the sites of phosphorylation (Thr-Glu-Tyr) that are involved in the activation of MAP kinases are conserved in ATMPK1 and ATMPK2. Northern blot analysis indicates that the ATMPK1 and ATMPK2 mRNAs are significantly present in all the organs except seeds. Genomic Southern blot analysis suggests that there are a few additional genes that are related to ATMPK1 and ATMPK2 in the Arabidopsis genome. Purified Xenopus MAP kinase kinase (MAPK kinase) phosphorylates ATMPK1 and ATMPK2 proteins that have been expressed in Escherichia coli, activating these enzymes. A rapid and transient activation of 46-kDa protein kinase activity that phosphorylated myelin basic protein (MBP) was detected when auxin-starved tobacco BY-2 cells were treated with synthetic auxin, 2,4-dichlorophenoxyacetic acid (2,4-D). Protein kinase activities which phosphorylated the recombinant ATMPK2 protein also increased rapidly after auxin treatment in the auxin-starved BY-2 cells. These results suggest that auxin may function as an activator of plant MAP kinase homologues, as do various mitogens in animal systems.
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PMID:Characterization of two cDNAs that encode MAP kinase homologues in Arabidopsis thaliana and analysis of the possible role of auxin in activating such kinase activities in cultured cells. 813 Jul 95

MEK is a family of dual specific protein kinases which activate the extracellular signal-regulated kinases by phosphorylation of threonine and tyrosine residues. MEK itself is activated via serine phosphorylation by upstream activator kinases, including c-raf, mos and MEK kinase. Here, we report the activation phosphorylation sites of human MEK1 and yeast STE7 kinase as determined by a combination of biochemical and genetic approaches. In human MEK1, substitution of either serine residue 218 or 222 with alanine completely abolished its activation by epidermal growth factor-stimulated Swiss 3T3 cell lysates or immunoprecipitated c-raf, suggesting that both serine residues are required for MEK1 activation. Phosphopeptide analysis demonstrated that serine residues 218 and 222 of human MEK1 are the primary sites for phosphorylation by c-raf. These two serine residues are highly conserved in all members of the MEK family, including the yeast STE7 gene product, a MEK homolog in the yeast mating pheromone response pathway. Mutation of the corresponding residues in STE7 completely abolished the biological functions of this gene. These data demonstrate that MEK is activated by phosphorylation of two adjacent serine/threonine residues and this activation mechanism is conserved in the MEK family kinases.
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PMID:Activation of MEK family kinases requires phosphorylation of two conserved Ser/Thr residues. 813 46

The residues on MAP kinase kinase-1 (MAPKK1) phosphorylated by MAP kinase in vitro have been identified as Thr-291 and Thr-385. Both threonines are phosphorylated in PC12 cells and the 32P-labelling of each residue increases after stimulation with nerve growth factor (NGF). The results establish that MAPKK1 is a physiological substrate for MAP kinase. The two active forms of MAPKK that are resolved by Mono Q chromatography of PC12 cell extracts are both phosphorylated at Thr-291 and Thr-385, demonstrating that neither species is the MAPKK2 isoform which lacks Thr-291.
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PMID:The threonine residues in MAP kinase kinase 1 phosphorylated by MAP kinase in vitro are also phosphorylated in nerve growth factor-stimulated rat phaeochromocytoma (PC12) cells. 813 10

Incubation of polymorphonuclear leukocytes with chemoattractants, granulocyte-macrophage colony-stimulating factor (GM-CSF), or phorbol 12-myristate 13-acetate (PMA) activated both mitogen-activated protein kinase kinase (MAPKK) and mitogen-activated protein kinase (MAPK). Activation by chemoattractants was rapid and transient, being maximal by 1 min and decreasing by 10 min. The order of efficacy was formyl-met-leu-phe > C5a > > LTB4 > interleukin 8 > platelet-activating factor. In contrast, activation by GM-CSF or PMA was slow and sustained being maximal at 5 min and with little decrease by 30 min. Sustained MAPK activation required continuous activation of the MAPKK. The MAPKK induced by N-formylmethionyl-leucyl-phenylalanine, GM-CSF, or PMA was resolved into two forms by anion exchange chromatography (Mono Q). Both corresponded to a 45-kDa MAPKK antigen by Western blotting and were inactivated by serine/threonine protein phosphatase 2A. Rechromatography of both forms after dephosphorylation resulted in the antigen's eluting slightly earlier on the Mono Q gradient than when in the active state. However, the two peaks remained separate, suggesting that they are not merely different phosphoforms of the same enzyme. The MAPK cascade is a signaling pathway common to many polymorphonuclear leukocyte stimulants, which may be activated transiently or in a sustained manner.
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PMID:Characterization of two different forms of mitogen-activated protein kinase kinase induced in polymorphonuclear leukocytes following stimulation by N-formylmethionyl-leucyl-phenylalanine or granulocyte-macrophage colony-stimulating factor. 814 33

Treatment of adipocytes with insulin or phorbol 12-myristate 13-acetate (PMA) results in transient activation of mitogen-activated protein kinase kinase (MEK) (Tmax = 90 s) and mitogen-activated protein kinase (MAPK) (Tmax = 300 s). We have identified a novel insulin-stimulated MEK kinase (I-MEKK) in the 100,000 x g infranatant that shows rapid phasic kinetics that temporally precede that of MEK. Maximal activation of I-MEKK occurs within 20 +/- 5 s (S.D., n = 3) followed by complete inactivation by 30 +/- 10 s (S.D., n = 3). I-MEKK was characterized by anion-exchange and gel filtration chromatography and separated into two distinct activities of approximately 56 kDa that phosphorylated and activated MEK. I-MEKKs did not co-elute on anion exchange with c-Raf or 73-kDa MEK kinase (MEKK), suggesting they are distinct enzymes. Protein phosphatase 2A inactivated both I-MEKKs in vitro and in the intact cell okadaic acid blocked inactivation in the presence of insulin. These results suggest activation of I-MEKK involves phosphorylation on serine or threonine residues. I-MEKK was not activated by PMA, suggesting that in adipocytes the enzyme represents a divergence point between signal transduction pathways mediated by insulin and those activating protein kinase C.
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PMID:Insulin activates a novel adipocyte mitogen-activated protein kinase kinase kinase that shows rapid phasic kinetics and is distinct from c-Raf. 817 93

Mitogen activated protein kinases (MAP) or extracellular signal regulated protein kinases (ERK) are a family of protein serine/threonine kinases that are activated very rapidly in response to many extracellular stimuli. elk-1, an ets related gene codes for two transcriptional factors elk-1, which regulates c-fos transcription and delta elk-1, both of which are substrates for MAP kinases. A part of the C-terminal transcriptional activation domain (ETA-2) which is common to both the proteins was previously shown to function as an activator of MAP kinases. In this report, in an attempt to investigate the mechanism of activation of MAP kinases, purified preparations of recombinant elk-1 and P44mpk/ERK-1/ERK-2 proteins were used to show the association of elk-1 proteins with MAP kinases. The specific interactions of elk-1 proteins with MAP kinases were confirmed by co-immunoprecipitation studies. Thus elk-1 proteins appear to regulate the activity of MAP kinases by interacting with them ensuring a conformational change and stimulating their autophosphorylation and activation property. The activation was dependent on the presence of ATP and Mg2+. In vitro phosphorylation of elk-1 protein was not regulatory for autonomous DNA binding activity of elk-1 protein. Cells which were exposed to EGF showed a rapid stimulation of an elk-1 specific kinase activity, probably MAP kinase which phosphorylated MBP and was found to be associated with immobilized GST-elk-1. Furthermore, dephosphorylation studies indicate that elk-1 proteins can activate only tyrosine phosphorylated MAP kinase. These results demonstrate the presence of an alternative pathway/mechanism (other than MAP kinase kinase, MAPKK/Mek) for the activation of MAP kinases with tyrosine phosphorylation occurring before serine/threonine autophosphorylation and activation by elk-1 proteins.
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PMID:elk-1 proteins interact with MAP kinases. 820 31

Xenopus mitogen-activated protein kinase kinase (MAPKK) previously inactivated with protein phosphatase 2A can be reactivated by serine phosphorylation catalyzed by a partially purified MAPKK kinase (MAPKK-K), and is phosphorylated by MAPK on a threonine residue. The sequence analysis of a threonine-phosphorylated tryptic peptide of Xenopus MAPKK from mature oocytes suggested that Thr388 is phosphorylated in vivo. A mutant MAPKK that has Thr388 changed to Ala (T388A-MAPKK) was not phosphorylated by purified MAPK, indicating that Thr388 is phosphorylated by MAPK. We then produced and analysed MAPKKs mutated at potential serine phosphorylation sites (S218A-MAPKK and S222A-MAPKK). The wild-type MAPKK (WT-MAPKKK), T388A-MAPKK and a kinase-deficient (K97S)-MAPKK were phosphorylated efficiently by MAPKK-Ks purified from Xenopus eggs, and WT-MAPKK and T388A-MAPKK became activated. In contrast, neither S218A-MAPKK nor S222A-MAPKK was phosphorylated and activated efficiently by the Xenopus MAPKK-Ks. Similarly, WT-MAPKK, but not S218A-MAPKK or S222A-MAPKK, was activated efficiently by an active Raf-1 immunoprecipitate. However, when the recombinant STE11, a putative MAPKK-K in S. cerevisiae, was used as a source of MAPKK-K, S218A-MAPKK as well as WT-MAPKK, but not S222A-MAPKK, was phosphorylated and activated. Furthermore, replacement of Ser222 with an acidic residue (S222E) elevated substantially the basal kinase activity of MAPKK, while replacement of Ser218 (S218E) did not. These results may suggest an essential role for Ser222 phosphorylation in activating Xenopus MAPKK.
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PMID:Characterization of recombinant Xenopus MAP kinase kinases mutated at potential phosphorylation sites. 820 35

Activation of extracellular signal-regulated kinase (ERK) or mitogen-activated protein kinase by MEK (mitogen-activated protein kinase or extracellular signal-regulated kinase kinase) is an essential event in the mitogenic growth factor signal transduction. We now demonstrate that three recombinant MEKs (MEK1, MEK2, MEK3) show remarkably different activity toward recombinant ERK1 and ERK2. MEK2 is the most active ERK activator. The recombinant MEK1 has an activity approximately seven times lower than that of MEK2. MEK3, which is identical to MEK1 except for missing an internal 26-amino acid residue and probably represents an alternative splicing product of MEK1, shows neither autophosphorylation nor ERK-activating activity. Recombinant MEK1 and MEK2 can be activated by epidermal growth factor-stimulated SWISS3T3 cell lysate. MEK1 and MEK2 can also be activated by autophosphorylation. Autophosphorylation of MEKs correlates with their ability to phosphorylate and activate ERKs. Phosphorylation of MEK is also stimulated by ERK. Phosphoamino acid analysis showed that ERK1 preferentially phosphorylated threonine residue of MEKs. MEKs complex with ERKs in vitro. Interestingly, MEK3 also forms a complex with ERK1, although it is totally inactive as an ERK activator.
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PMID:Properties of MEKs, the kinases that phosphorylate and activate the extracellular signal-regulated kinases. 822 33

The mitogen-activated protein (MAP) kinases are serine-threonine protein kinases that are activated by tyrosine and threonine phosphorylation by the dual specificity protein kinase MEK (MAP kinase/ERK kinase). The present report describes the purification to near homogeneity and characterization of a protein tyrosine phosphatase from Xenopus laevis eggs that dephosphorylates MAP kinase phosphorylated by MEK. Bacterially expressed Xenopus MAP kinase phosphorylated by purified Xenopus MEK was used as substrate throughout the purification. The purification procedure included anion-exchange, cation-exchange, gel filtration, heparin-Sepharose, and chromatography on a column of thiophosphorylated MAP kinase-Sepharose, resulting in a > 3000-fold purification. Upon analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, a protein of 47 kDa correlated with activity. The phosphatase showed absolute specificity toward phosphotyrosine and no activity toward phosphothreonyl-phosphoseryl residues of MAP kinase. The pH optimum of the enzyme was 7.0 with a Km of 9.0 microM for phosphorylated MAP kinase. The phosphatase was inhibited by ammonium molybdate (IC50, 2 microM), vanadate (IC50, 250 microM), millimolar concentrations of MnCl2, ZnCl2 and p-nitrophenylphosphate but not by okadaic acid or microcystin. This tyrosine phosphatase may be involved in deactivating MAP kinase in vivo.
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PMID:Purification and characterization of a mitogen-activated protein kinase tyrosine phosphatase from Xenopus eggs. 822 71

MEK1 is a dual specificity kinase that phosphorylates and activates the Erk/MAP kinases Erk-1 and Erk-2 by phosphorylating them on threonine and tyrosine. We report the cloning of a second MEK-like complementary DNA, Mek2, which predicts a protein of a molecular weight of 44,500. The MEK2 protein bears substantial sequence homology to MEK1, except at its amino terminus, and at a proline-rich region insert between the conserved kinase subdomains 9 and 10. MEK1 and MEK2 are shown to be encoded by different genes and are located on murine chromosomes 9 and 10, respectively. Northern analysis indicates that Mek2 is expressed at low levels in adult mouse brain and heart tissue, and at higher levels in other tissues examined. Low expression levels of Mek2 in brain tissue are in contrast to the high levels of Mek1 expressed in brain. Mek2 is expressed at high levels in neonatal brain, however. Recombinant MEK2 produced in bacteria phosphorylates a kinase-inactive Erk-1 on tyrosine and threonine, whereas a kinase-inactive mutant MEK2 does not. These findings suggest that MEK2 is a member of a multigene family.
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PMID:MEK2 is a kinase related to MEK1 and is differentially expressed in murine tissues. 829 98


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