ERK activation induces phosphorylation of Elk-1 at multiple S/T-P motifs to high stoichiometry.
about
Elk-1 a transcription factor with multiple facets in the brainRev7/MAD2B links c-Jun N-terminal protein kinase pathway signaling to activation of the transcription factor Elk-1The B-box dominates SAP-1-SRF interactions in the structure of the ternary complexERF nuclear shuttling, a continuous monitor of Erk activity that links it to cell cycle progressionA natural small molecule, catechol, induces c-Myc degradation by directly targeting ERK2 in lung cancerA docking site in MKK4 mediates high affinity binding to JNK MAPKs and competes with similar docking sites in JNK substratesElk-1 associates with the mitochondrial permeability transition pore complex in neuronsKinase-mediated regulation of common transcription factors accounts for the bone-protective effects of sex steroids.Complexity in transcription control at the activation domain-mediator interface.A rapid and sensitive bioassay for the simultaneous measurement of multiple bone morphogenetic proteins. Identification and quantification of BMP4, BMP6 and BMP9 in bovine and human serum.Utilizing ras signaling pathway to direct selective replication of herpes simplex virus-1.Overexpression of Ets-like protein 1 in human esophageal squamous cell carcinoma.Pseudorabies virus pUL46 induces activation of ERK1/2 and regulates herpesvirus-induced nuclear envelope breakdown.The ternary complex factor Net contains two distinct elements that mediate different responses to MAP kinase signalling cascades.Docking sites on mitogen-activated protein kinase (MAPK) kinases, MAPK phosphatases and the Elk-1 transcription factor compete for MAPK binding and are crucial for enzymic activity.Neurokinin B induces c-fos transcription via protein kinase C and activation of serum response factor and Elk-1 in immortalized GnRH neurons.Transcriptional regulation of flotillins by the extracellularly regulated kinases and retinoid X receptor complexes.Epitope-guided engineering of monobody binders for in vivo inhibition of Erk-2 signaling.Pharmacological Reprogramming of Fibroblasts into Neural Stem Cells by Signaling-Directed Transcriptional Activation.A feedback loop between androgen receptor and ERK signaling in estrogen receptor-negative breast cancer.Estrogen induction of telomerase activity through regulation of the mitogen-activated protein kinase (MAPK) dependent pathway in human endometrial cancer cells.Conversion of the LIN-1 ETS protein of Caenorhabditis elegans from a SUMOylated transcriptional repressor to a phosphorylated transcriptional activator.Structural and Dynamic Features of F-recruitment Site Driven Substrate Phosphorylation by ERK2.Role of G Protein-Coupled Receptor Kinases 2 and 3 in μ-Opioid Receptor Desensitization and InternalizationZn2+-dependent Activation of the Trk Signaling Pathway Induces Phosphorylation of the Brain-enriched Tyrosine Phosphatase STEP: MOLECULAR BASIS FOR ZN2+-INDUCED ERK MAPK ACTIVATION.Regulations of Reversal of Senescence by PKC Isozymes in Response to 12-O-Tetradecanoylphorbol-13-Acetate via Nuclear Translocation of pErk1/2.SP-1 regulation of MMP-9 expression requires Ser586 in the PEST domain.Emerging role of MAP kinase pathways as therapeutic targets in COPD.Cyclic tensile stress during physiological occlusal force enhances osteogenic differentiation of human periodontal ligament cells via ERK1/2-Elk1 MAPK pathway.Activation of p90 Rsk1 is sufficient for differentiation of PC12 cells.Global signaling effects of a schizophrenia-associated missense mutation in neuregulin 1: an exploratory study using whole genome and novel kinome approaches.The ERK Cascade: Distinct Functions within Various Subcellular Organelles.Mitogen-Activated Protein (MAP) Kinase Scaffolding Proteins: A Recount.Mitogen-induced recruitment of ERK and MSK to SRE promoter complexes by ternary complex factor Elk-1.HCMV activation of ERK-MAPK drives a multi-factorial response promoting the survival of infected myeloid progenitors.SRF Co-factors Control the Balance between Cell Proliferation and Contractility.Strategies for Overcoming Resistance in Tumours Harboring BRAF Mutations.Functional characterization of the promoter region of the human EVI1 gene in acute myeloid leukemia: RUNX1 and ELK1 directly regulate its transcription.Phospholipase D1 is an important regulator of bFGF-induced neurotrophin-3 expression and neurite outgrowth in H19-7 cells.Interaction of serum response factor (SRF) with the Elk-1 B box inhibits RhoA-actin signaling to SRF and potentiates transcriptional activation by Elk-1.
P2860
Q21129371-1CF791D0-706B-47C9-8C4C-D7EDB805EAE1Q24296936-39B4DFD6-9A39-41EE-B876-9AC81AC7D357Q24550909-6A90AA21-785F-48ED-880E-0F6AB5F01A10Q24629604-506C8C10-DDCA-418D-A91D-E8FC84650797Q27704839-40882B89-61A7-47DA-97AD-EDFE0316D79CQ28177171-15C47A92-9A9A-43E6-84A4-9A1700F86583Q28568322-D97F292B-0E8B-4E20-B285-E6C0C9D49D30Q30452982-40B97596-A5E3-4240-828E-94839C402337Q30491504-C0B9429D-E93E-4B77-8B5E-D80A3830C650Q33419686-40C350BB-A4B4-4521-AC81-191A4316C9CEQ33490144-E72693A4-B4BE-45FC-AF95-89B85C338C4BQ33866754-7161154A-90E2-486C-9C65-853C2DF6846CQ33887668-E829A0BB-E93E-43C2-ABDC-1C39192CDC71Q33922446-24377901-11CB-40F6-B749-F4B449D07FE3Q34170648-71520859-559E-49D4-8478-80C61BFCA118Q34185677-C97E8660-32E3-4E7C-800F-A38C5DF0985CQ34429264-DD72677A-3D3D-4C2C-85B8-30B0455F3CE0Q34507603-324CD9EC-647E-402D-B01D-72FCD427BD56Q34524445-DAFBA7F6-9C50-407F-B68C-F8BA31E2F862Q34551559-186F12F2-E79F-4FCA-8816-839D501C74ABQ34586233-C9276E6D-9A2A-4F01-A978-CD860C96A551Q35145747-B58D8AA8-EED3-49BD-9824-BDB1312A475BQ35693224-D0004F6A-D6ED-4BA5-9039-5F5D68F6B056Q35897872-19162B7A-9E1B-4D9A-AFD5-9C797680CB86Q36442410-B293D886-BE09-49C4-85D7-EF44F84FE320Q36693859-1CAB68B3-C4FD-4F9D-A5A5-B56978D49339Q36872313-E85A4164-8268-40C2-8B7B-F84CD9C08A6BQ37018901-7CF3F169-7C49-4A8F-93C8-C3DD62AE021FQ37118712-5D95CF5C-1129-49C5-B43C-470F26D26095Q37683825-125FF3EC-C278-4192-8014-8CAC52CFFB3BQ37722635-CA47C00D-A9FC-41D9-85AD-AD0AC2082F90Q37903694-4671E6C5-8C55-4404-91A5-BC642867EC34Q38086019-3C1C95A0-EDF0-4A1E-A8F5-292AC5269A2FQ38315112-45E8BFEC-5516-4AF9-9948-2917E0D86E71Q38793369-5F252BB0-D7AE-4F6C-8570-4662DAB564DFQ39170652-6A9462CD-2F14-4CA9-B47E-D82F36525675Q39173195-BEAD54EC-EB36-464F-91A2-3B27C4519075Q39332914-729C12D9-56B8-4600-BAED-225E8921581BQ39356638-06F5489A-86D2-4230-A369-6076333D7883Q39695655-5985A7B9-DFC6-4913-9C53-FC5153DDE887
P2860
ERK activation induces phosphorylation of Elk-1 at multiple S/T-P motifs to high stoichiometry.
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
1999年论文
@zh
1999年论文
@zh-cn
name
ERK activation induces phospho ...... motifs to high stoichiometry.
@en
ERK activation induces phospho ...... motifs to high stoichiometry.
@nl
type
label
ERK activation induces phospho ...... motifs to high stoichiometry.
@en
ERK activation induces phospho ...... motifs to high stoichiometry.
@nl
prefLabel
ERK activation induces phospho ...... motifs to high stoichiometry.
@en
ERK activation induces phospho ...... motifs to high stoichiometry.
@nl
P2860
P356
P1433
P1476
ERK activation induces phospho ...... motifs to high stoichiometry.
@en
P2093
P2860
P2888
P304
P356
10.1038/SJ.ONC.1203362
P407
P577
1999-12-01T00:00:00Z
P5875
P6179
1037056795