Molecular cloning, expression, and characterization of the human mitogen- activated protein kinase p44erk1.Charest D.L., Jirik F., Harder K., Pelech S.L., Mordret G.View abstractCited forNUCLEOTIDE SEQUENCE [MRNA] (ISOFORM 1)TissueHepatomaCategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCMol. Cell. Biol. 13:4679-4690 (1993)Cited in1
Properties of human ERK1b.Aebersold D.M., Yung Y., Seger R.Cited forNUCLEOTIDE SEQUENCE [MRNA] (ISOFORM 3)CategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)Submission Submitted to EMBL/GenBank/DDBJ databases (APR-2001)Cited in1
Identification of dominant negative Erk1/2 variants in cancer cells.Cheng H., Ren S., Qiu R., Wang M., Feng Y.H.Cited forNUCLEOTIDE SEQUENCE [MRNA] (ISOFORM 2)CategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)Submission Submitted to EMBL/GenBank/DDBJ databases (FEB-2006)Cited in2
No title available.SeattleSNPs variation discovery resourceCited forNUCLEOTIDE SEQUENCE [GENOMIC DNA]CategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)Submission Submitted to EMBL/GenBank/DDBJ databases (DEC-2007)Cited in8
The sequence and analysis of duplication-rich human chromosome 16.Martin J., Han C., Gordon L.A., Terry A., Prabhakar S., She X., Xie G., Hellsten U., Chan Y.M.[...], Pennacchio L.A.View abstractCited forNUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA]CategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCNature 432:988-994 (2004)Cited in99+99+
No title available.Mural R.J., Istrail S., Sutton G.G., Florea L., Halpern A.L., Mobarry C.M., Lippert R., Walenz B., Shatkay H.[...], Venter J.C.Cited forNUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA]CategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)Submission Submitted to EMBL/GenBank/DDBJ databases (JUL-2005)Cited in99+
The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC).The MGC Project TeamView abstractCited forNUCLEOTIDE SEQUENCE [LARGE SCALE MRNA] (ISOFORM 1)TissueLymphCategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCGenome Res. 14:2121-2127 (2004)Cited in99+99+
No title available.Bienvenut W.V., Dhillon A.S., Kolch W.Cited forPROTEIN SEQUENCE OF 2-15; 33-41; 88-94; 117-131; 212-220; 279-287; 303-318 AND 360-370, CLEAVAGE OF INITIATOR METHIONINE, ACETYLATION AT ALA-2, IDENTIFICATION BY MASS SPECTROMETRYTissueHepatomaCategoriesPTM / Processing, SequencesSourceUniProtKB reviewed (Swiss-Prot)Submission Submitted to UniProtKB (FEB-2008)Cited in12
Extracellular signal-regulated kinases in T cells: characterization of human ERK1 and ERK2 cDNAs.Owaki H., Makar R., Boulton T.G., Cobb M.H., Geppert T.D.View abstractCited forNUCLEOTIDE SEQUENCE [MRNA] OF 14-379 (ISOFORM 1)CategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCBiochem. Biophys. Res. Commun. 182:1416-1422 (1992)Cited in2
Heterogeneous expression of four MAP kinase isoforms in human tissues.Gonzalez F.A., Raden D.L., Rigby M.R., Davis R.J.View abstractCited forNUCLEOTIDE SEQUENCE [MRNA] OF 25-379 (ISOFORM 1)CategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCFEBS Lett. 304:170-178 (1992)Cited in3
Serine 25 of oncoprotein 18 is a major cytosolic target for the mitogen- activated protein kinase.Marklund U., Brattsand G., Shingler V., Gullberg M.View abstractCited forFUNCTION IN PHOSPHORYLATION OF STMN1CategoriesFunction, PTM / ProcessingSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCJ. Biol. Chem. 268:15039-15047 (1993)Cited in2
Human immunodeficiency virus type 1 Nef binds directly to LCK and mitogen- activated protein kinase, inhibiting kinase activity.Greenway A.L., Azad A., Mills J., McPhee D.A.View abstractCited forINTERACTION WITH HIV-1 NEF (MICROBIAL INFECTION)CategoriesInteractionSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCJ. Virol. 70:6701-6708 (1996)Cited in4
MNK1, a new MAP kinase-activated protein kinase, isolated by a novel expression screening method for identifying protein kinase substrates.Fukunaga R., Hunter T.View abstractCited forFUNCTION IN PHOSPHORYLATION OF MKNK1/MNK1CategoriesFunction, PTM / ProcessingSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCEMBO J. 16:1921-1933 (1997)Cited in2
MAPKAPK5, a novel mitogen-activated protein kinase (MAPK)-activated protein kinase, is a substrate of the extracellular-regulated kinase (ERK) and p38 kinase.Ni H., Wang X.S., Diener K., Yao Z.View abstractCited forFUNCTION IN PHOSPHORYLATION OF MAPKAPK5CategoriesFunction, PTM / ProcessingSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCBiochem. Biophys. Res. Commun. 243:492-496 (1998)Cited in3Mapped to4
Phosphorylation by CK2 and MAPK enhances calnexin association with ribosomes.Chevet E., Wong H.N., Gerber D., Cochet C., Fazel A., Cameron P.H., Gushue J.N., Thomas D.Y., Bergeron J.J.View abstractCited forFUNCTION IN PHOSPHORYLATION OF CANX, INTERACTION WITH CANXCategoriesFunction, PTM / Processing, InteractionSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCEMBO J. 18:3655-3666 (1999)Cited in2Mapped to1
Extracellular regulated kinases (ERK) 1 and ERK2 are authentic substrates for the dual-specificity protein-tyrosine phosphatase VHR. A novel role in down-regulating the ERK pathway.Todd J.L., Tanner K.G., Denu J.M.View abstractCited forDEPHOSPHORYLATION BY DUSP3CategoriesPTM / ProcessingSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCJ. Biol. Chem. 274:13271-13280 (1999)Cited in3
Identification of a cytoplasmic-retention sequence in ERK2.Rubinfeld H., Hanoch T., Seger R.View abstractCited forSUBCELLULAR LOCATION, INTERACTION WITH MAP2K1/MEK1, DOMAINCategoriesFamily & Domains, Interaction, Subcellular LocationSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCJ. Biol. Chem. 274:30349-30352 (1999)Cited in1
Reduced MAP kinase phosphatase-1 degradation after p42/p44MAPK-dependent phosphorylation.Brondello J.M., Pouyssegur J., McKenzie F.R.View abstractCited forFUNCTION IN PHOSPHORYLATION OF DUSP1CategoriesFunction, PTM / ProcessingSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCScience 286:2514-2517 (1999)Cited in3Mapped to1
c-Jun NH2-terminal kinase targeting and phosphorylation of heat shock factor-1 suppress its transcriptional activity.Dai R., Frejtag W., He B., Zhang Y., Mivechi N.F.View abstractCited forINTERACTION WITH HSF1CategoriesInteractionSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCJ. Biol. Chem. 275:18210-18218 (2000)Cited in3
IEX-1: a new ERK substrate involved in both ERK survival activity and ERK activation.Garcia J., Ye Y., Arranz V., Letourneux C., Pezeron G., Porteu F.View abstractCited forFUNCTION IN PHOSPHORYLATION OF IER3, INTERACTION WITH IER3, ACTIVITY REGULATIONCategoriesFunction, PTM / Processing, InteractionSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCEMBO J. 21:5151-5163 (2002)Cited in3
Insulin receptor substrate 4 associates with the protein IRAS.Sano H., Liu S.C.H., Lane W.S., Piletz J.E., Lienhard G.E.View abstractCited forINTERACTION WITH NISCHCategoriesInteractionSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCJ. Biol. Chem. 277:19439-19447 (2002)Cited in7Mapped to4
Signal transduction via the stem cell factor receptor/c-Kit.Ronnstrand L.View abstractCited forREVIEW ON ROLE IN KIT SIGNALINGCategoriesFunctionSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCCell. Mol. Life Sci. 61:2535-2548 (2004)Cited in18Mapped to15
Phosphorylation of Grb10 by mitogen-activated protein kinase: identification of Ser150 and Ser476 of human Grb10zeta as major phosphorylation sites.Langlais P., Wang C., Dong L.Q., Carroll C.A., Weintraub S.T., Liu F.View abstractCited forFUNCTION IN PHOSPHORYLATION OF GRB10CategoriesFunction, PTM / ProcessingSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCBiochemistry 44:8890-8897 (2005)Cited in3
Bidirectional signals transduced by DAPK-ERK interaction promote the apoptotic effect of DAPK.Chen C.H., Wang W.J., Kuo J.C., Tsai H.C., Lin J.R., Chang Z.F., Chen R.H.View abstractCited forINTERACTION WITH DAPK1CategoriesInteractionSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCEMBO J. 24:294-304 (2005)Cited in3
Growth factors can activate ATF2 via a two-step mechanism: phosphorylation of Thr71 through the Ras-MEK-ERK pathway and of Thr69 through RalGDS-Src- p38.Ouwens D.M., de Ruiter N.D., van der Zon G.C., Carter A.P., Schouten J., van der Burgt C., Kooistra K., Bos J.L., Maassen J.A., van Dam H.View abstractCited forFUNCTION IN PHOSPHORYLATION OF ATF2CategoriesFunction, PTM / ProcessingSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCEMBO J. 21:3782-3793 (2002)Cited in3Mapped to5