about
P688
High-throughput sequencing identifies STAT3 as the DNA-associated factor for p53-NF-kappaB-complex-dependent gene expression in human heart failureThe coiled-coil domain of Stat3 is essential for its SH2 domain-mediated receptor binding and subsequent activation induced by epidermal growth factor and interleukin-6Progesterone receptor induces ErbB-2 nuclear translocation to promote breast cancer growth via a novel transcriptional effect: ErbB-2 function as a coactivator of Stat3Crif1 is a novel transcriptional coactivator of STAT3BART is essential for nuclear retention of STAT3Role of the TAK1-NLK-STAT3 pathway in TGF-beta-mediated mesoderm inductionSH2B1β interacts with STAT3 and enhances fibroblast growth factor 1-induced gene expression during neuronal differentiationECHS1 interacts with STAT3 and negatively regulates STAT3 signalingDifferential activation of acute phase response factor/STAT3 and STAT1 via the cytoplasmic domain of the interleukin 6 signal transducer gp130. I. Definition of a novel phosphotyrosine motif mediating STAT1 activationNovel role of signal transducer and activator of transcription 3 as a progesterone receptor coactivator in breast cancerGrowth hormone receptor cytoplasmic domain differentially promotes tyrosine phosphorylation of signal transducers and activators of transcription 5b and 3 by activated JAK2 kinaseCross-talk between KLF4 and STAT3 regulates axon regenerationSignal transducers and activators of transcription 3 augments the transcriptional activity of CCAAT/enhancer-binding protein alpha in granulocyte colony-stimulating factor signaling pathwayHepcidin mediates transcriptional changes that modulate acute cytokine-induced inflammatory responses in miceA Stat3-interacting protein (StIP1) regulates cytokine signal transductionObservation of unphosphorylated STAT3 core protein binding to target dsDNA by PEMSA and X-ray crystallographyInhibition of microRNA-92a prevents endothelial dysfunction and atherosclerosis in miceHes binding to STAT3 mediates crosstalk between Notch and JAK-STAT signallingA kinase-independent function of CDK6 links the cell cycle to tumor angiogenesisFer is a downstream effector of insulin and mediates the activation of signal transducer and activator of transcription 3 in myogenic cellsSTAT3 negatively regulates thyroid tumorigenesisThe LIM/homeodomain protein Islet1 recruits Janus tyrosine kinases and signal transducer and activator of transcription 3 and stimulates their activitiesA novel sequence in the coiled-coil domain of Stat3 essential for its nuclear translocationA novel nuclear zinc finger protein EZI enhances nuclear retention and transactivation of STAT3Leptin downregulates expression of the gene encoding glucagon in alphaTC1-9 cells and mouse isletsPhysical and functional interactions between STAT3 and ZIP kinasePwp1 is required for the differentiation potential of mouse embryonic stem cells through regulating Stat3 signalingInnate Stat3-mediated induction of the antimicrobial protein Reg3γ is required for host defense against MRSA pneumoniaNuclear termination of STAT3 signaling through SIPAR (STAT3-Interacting Protein As a Repressor)-dependent recruitment of T cell tyrosine phosphatase TC-PTPCyclin-dependent kinase 5 phosphorylates signal transducer and activator of transcription 3 and regulates its transcriptional activityJANEX-1, a JAK3 inhibitor, protects pancreatic islets from cytokine toxicity through downregulation of NF-kappaB activation and the JAK/STAT pathwayLoss of the tyrosine phosphatase PTPRD leads to aberrant STAT3 activation and promotes gliomagenesisPecam-1 is a modulator of stat family member phosphorylation and localization: lessons from a transgenic mouseNanog binds to Smad1 and blocks bone morphogenetic protein-induced differentiation of embryonic stem cellsLeptin signaling promotes the growth of mammary tumors and increases the expression of vascular endothelial growth factor (VEGF) and its receptor type two (VEGF-R2)Effects of leptin and leukemia inhibitory factor on preimplantation development and STAT3 signaling of mouse embryos in vitroThe metabolite GnRH-(1-5) inhibits the migration of immortalized GnRH neuronsSTAT3 signalling is required for leptin regulation of energy balance but not reproductionDownregulation of STAT3 activation is required for presumptive rod photoreceptor cells to differentiate in the postnatal retinaTumor necrosis factor receptor signaling in keratinocytes triggers interleukin-24-dependent psoriasis-like skin inflammation in mice
P921
Q21183975-C9F1A687-D156-47B9-8FF1-506C7E1D4C08Q24290231-4AF5F2B8-132B-4669-B072-77B2EB08FD64Q24301306-0D303F8B-F5E2-434A-9361-CD9A2412483CQ24306663-C797AF51-261A-4686-A040-981852087F63Q24308993-3E04282C-6CBA-48C5-80E5-D1B0212566D4Q24314568-DD6B2225-F12A-45AE-ABB2-8715FD06BF27Q24317752-24B17A3A-0029-4A8E-86DE-1DAB860DBE09Q24317798-5EA2189A-EBB7-497E-87DC-8E28E4C20375Q24319880-88BF2855-F4BA-43D5-B2B4-E9766D83621CQ24320860-5E578720-D271-4E12-A1B4-2E4DD4352BFBQ24321582-366C7AE5-36B1-4C6C-8BF0-951247847BB6Q24338431-EA06747A-4B91-4623-90BF-BC22AB762D71Q24338702-27524978-B3E9-4201-B907-AD365AB01DBFQ24617847-46E54563-2C01-4839-A758-6E8DDBED6535Q24644379-FB5FEAF8-B07C-4207-A2B5-FD0AB6ABDE3DQ27684066-4339C303-4331-4DC2-AC38-FAB2C4D89DF2Q28115933-13B28911-7F3C-465C-A627-F6BAA17058DCQ28262816-F1FFC5F3-C7F6-4021-9C3B-013CFE2D61FDQ28296641-AEBBB535-AA90-40DE-8279-CD2F79396499Q28505028-CD759C76-E7A9-42D8-8E97-E1BA592176CEQ28505424-B61CFDEF-4D7E-4F54-A493-458D9C4E0B81Q28505904-C0744B7F-2827-4539-B972-BE8D44F70F7BQ28505954-A4AD2137-BAC7-4253-A822-25744BBBD42BQ28506660-A770151C-0692-409A-93A0-F608C0F47A79Q28507344-8519C609-100E-4AB9-8229-D7B32C05EDADQ28507416-41A174E7-D170-4401-A143-38F8CC727A4EQ28507710-094CA6CE-AD23-4F3D-99C6-138B86328863Q28510473-ABB121DE-DE18-44C9-9866-A45772D12123Q28510611-8303BBCC-606F-4074-AF30-14E50670EDF1Q28512261-A730F4C3-7DE3-4B16-BBA3-156A1DDFE2C0Q28567187-6A2BB5A1-E226-4235-9DE8-05DAC955CC24Q28584911-E04A84A7-499D-400D-B576-35D01F828015Q28585431-0D0AB3EE-733F-4E98-9D77-04AF6D58DA46Q28585886-FEAE4D29-922B-4F63-A9E3-F34023A03F80Q28586465-024FFB6F-6514-45F7-803E-0F39911B1454Q28586681-B44A9FDD-0575-4052-A274-E0FED8851EAEQ28587287-F4FAC5DA-4358-418C-B5D8-A5D34F42E2F6Q28589994-048BC4D6-7471-4E29-8014-84950F13D6BDQ28590031-71923FC5-2973-4AED-9A95-E45B0038805CQ28590725-8FEEEA2F-89B6-4196-B642-C9CF4DBAC4F5
P921
description
mammalian protein found in Mus musculus
@en
protein
@id
protein
@sv
proteinë
@sq
proteïne in Signal transducer and activator of transcription 3
@nl
protèin
@ace
protéine
@fr
بروتين في فأر المنازل
@ar
name
Signal transducer and activator of transcription 3
@en
Signal transducer and activator of transcription 3
@nl
type
label
Signal transducer and activator of transcription 3
@en
Signal transducer and activator of transcription 3
@nl
altLabel
Acute-phase response factor
@en
Stat3
@en
acute phase response factor
@en
signal transducer and activator of transcription 3
@en
prefLabel
Signal transducer and activator of transcription 3
@en
Signal transducer and activator of transcription 3
@nl
P361
P527
P637
P638
P680
P681
P682
P705
P352
P279
P31
P352
P361
P527
P637
XP_011247148
P638
P680
P681
P682
P702
P703
P705
ENSMUSP00000090342
ENSMUSP00000099403
ENSMUSP00000120152
ENSMUSP00000121677