DEPOD - human DEPhOsphorylation Database

Basic Information
Phosphatases
Pathway
Interacting Proteins
Phosphorylating Kinases

Gene Name	STAT1 (QuickGO)	Interactive visualization of STAT1 structures (A quick tutorial to explore the interctive visulaization) Representative structure: 1BF5
Synonyms	STAT1
Protein Name	STAT1
Alternative Name(s)	Signal transducer and activator of transcription 1-alpha/beta;Transcription factor ISGF-3 components p91/p84;
Protein Family	Belongs to the transcription factor STAT family
EntrezGene ID	6772 (Comparitive Toxicogenomics)
UniProt AC (Human)	P42224 (protein sequence)
Enzyme Class	N/A
Molecular Weight	87335 Dalton
Protein Length	750 amino acids (AA)
Genome Browsers	NCBI \| ENSG00000115415 (Ensembl) \| UCSC
Crosslinking annotations	Query our ID-mapping table
Orthologues	Quest For Orthologues (QFO) \| GeneTree \| eggNOG - KOG3667 \| eggNOG - ENOG410XPN8
Phosphorylation Network	Visualize

Domain organization, Expression, Diseases

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Localization, Function, Catalytic activity and Sequence

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Localization (UniProt annotation)
Cytoplasm Nucleus Note=Translocated into the nucleusupon tyrosine phosphorylation and dimerization, in response toIFN-gamma and signaling by activated FGFR1, FGFR2, FGFR3 or FGFR4(PubMed:15322115) Monomethylation at Lys-525 is required forphosphorylation at Tyr-701 and translocation into the nucleus(PubMed:28753426) Translocates into the nucleus in response tointerferon-beta stimulation (PubMed:26479788)
Function (UniProt annotation)
Signal transducer and transcription activator thatmediates cellular responses to interferons (IFNs), cytokineKITLG/SCF and other cytokines and other growth factors Followingtype I IFN (IFN-alpha and IFN-beta) binding to cell surfacereceptors, signaling via protein kinases leads to activation ofJak kinases (TYK2 and JAK1) and to tyrosine phosphorylation ofSTAT1 and STAT2 The phosphorylated STATs dimerize and associatewith ISGF3G/IRF-9 to form a complex termed ISGF3 transcriptionfactor, that enters the nucleus (PubMed:28753426) ISGF3 binds tothe IFN stimulated response element (ISRE) to activate thetranscription of IFN-stimulated genes (ISG), which drive the cellin an antiviral state In response to type II IFN (IFN-gamma),STAT1 is tyrosine- and serine-phosphorylated (PubMed:26479788) Itthen forms a homodimer termed IFN-gamma-activated factor (GAF),migrates into the nucleus and binds to the IFN gamma activatedsequence (GAS) to drive the expression of the target genes,inducing a cellular antiviral state Becomes activated in responseto KITLG/SCF and KIT signaling May mediate cellular responses toactivated FGFR1, FGFR2, FGFR3 and FGFR4
Catalytic Activity (UniProt annotation)
N/A
Protein Sequence
MSQWYELQQLDSKFLEQVHQLYDDSFPMEIRQYLAQWLEKQDWEHAANDVSFATIRFHDLLSQLDDQYSRFSLENNFLLQ HNIRKSKRNLQDNFQEDPIQMSMIIYSCLKEERKILENAQRFNQAQSGNIQSTVMLDKQKELDSKVRNVKDKVMCIEHEI KSLEDLQDEYDFKCKTLQNREHETNGVAKSDQKQEQLLLKKMYLMLDNKRKEVVHKIIELLNVTELTQNALINDELVEWK RRQQSACIGGPPNACLDQLQNWFTIVAESLQQVRQQLKKLEELEQKYTYEHDPITKNKQVLWDRTFSLFQQLIQSSFVVE RQPCMPTHPQRPLVLKTGVQFTVKLRLLVKLQELNYNLKVKVLFDKDVNERNTVKGFRKFNILGTHTKVMNMEESTNGSL AAEFRHLQLKEQKNAGTRTNEGPLIVTEELHSLSFETQLCQPGLVIDLETTSLPVVVISNVSQLPSGWASILWYNMLVAE PRNLSFFLTPPCARWAQLSEVLSWQFSSVTKRGLNVDQLNMLGEKLLGPNASPDGLIPWTRFCKENINDKNFPFWLWIES ILELIKKHLLPLWNDGCIMGFISKERERALLKDQQPGTFLLRFSESSREGAITFTWVERSQNGGEPDFHAVEPYTKKELS AVTFPDIIRNYKVMAAENIPENPLKYLYPNIDKDHAFGKYYSRPKEAPEPMELDGPKGTGYIKTELISVSEVHPSRLQTT DNLLPMSPEEFDEVSRIVGSVEFDSMMNTV

Motif information from Eukaryotic Linear Motif atlas (ELM)

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Gene Ontology (P: Process; F: Function and C: Component terms)

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GO:0000122	P:negative regulation of transcription by RNA polymerase II
GO:0000790	C:nuclear chromatin
GO:0000978	F:RNA polymerase II proximal promoter sequence-specific DNA binding
GO:0000979	F:RNA polymerase II core promoter sequence-specific DNA binding
GO:0000981	F:RNA polymerase II transcription factor activity
GO:0000982	sequence-specific DNA binding
GO:0000983	F:transcription factor activity
GO:0001937	RNA polymerase II proximal promoter sequence-specific DNA binding
GO:0002053	F:transcription factor activity
GO:0002230	RNA polymerase II core promoter sequence-specific DNA binding
GO:0003340	P:negative regulation of endothelial cell proliferation
GO:0003690	P:positive regulation of mesenchymal cell proliferation
GO:0003700	P:positive regulation of defense response to virus by host
GO:0005164	P:negative regulation of mesenchymal to epithelial transition involved in metanephros morphogenesis
GO:0005634	F:double-stranded DNA binding
GO:0005654	F:DNA-binding transcription factor activity
GO:0005730	F:tumor necrosis factor receptor binding
GO:0005737	C:nucleus
GO:0005829	C:nucleoplasm
GO:0006351	C:nucleolus
GO:0006355	C:cytoplasm
GO:0007221	C:cytosol
GO:0007259	P:transcription
GO:0007584	DNA-templated
GO:0008015	P:regulation of transcription
GO:0009612	DNA-templated
GO:0010742	P:positive regulation of transcription of Notch receptor target
GO:0016032	P:JAK-STAT cascade
GO:0016525	P:response to nutrient
GO:0019221	P:blood circulation
GO:0019899	P:response to mechanical stimulus
GO:0030424	P:macrophage derived foam cell differentiation
GO:0030425	P:viral process
GO:0031730	P:negative regulation of angiogenesis
GO:0032727	P:cytokine-mediated signaling pathway
GO:0032869	F:enzyme binding
GO:0032991	C:axon
GO:0033209	C:dendrite
GO:0034097	F:CCR5 chemokine receptor binding
GO:0035035	P:positive regulation of interferon-alpha production
GO:0035257	P:cellular response to insulin stimulus
GO:0035456	C:protein-containing complex
GO:0035458	P:tumor necrosis factor-mediated signaling pathway
GO:0038113	P:response to cytokine
GO:0038114	F:histone acetyltransferase binding
GO:0042393	F:nuclear hormone receptor binding
GO:0042542	P:response to interferon-beta
GO:0042802	P:cellular response to interferon-beta
GO:0042803	P:interleukin-9-mediated signaling pathway
GO:0042981	P:interleukin-21-mediated signaling pathway
GO:0043124	F:histone binding
GO:0043434	P:response to hydrogen peroxide
GO:0044389	F:identical protein binding
GO:0045296	F:protein homodimerization activity
GO:0045648	P:regulation of apoptotic process
GO:0045893	P:negative regulation of I-kappaB kinase/NF-kappaB signaling
GO:0045944	P:response to peptide hormone
GO:0046725	F:ubiquitin-like protein ligase binding
GO:0048471	F:cadherin binding
GO:0048661	P:positive regulation of erythrocyte differentiation
GO:0051591	P:positive regulation of transcription
GO:0051607	DNA-templated
GO:0051721	P:positive regulation of transcription by RNA polymerase II
GO:0051770	P:negative regulation by virus of viral protein levels in host cell
GO:0060333	C:perinuclear region of cytoplasm
GO:0060334	P:positive regulation of smooth muscle cell proliferation
GO:0060337	P:response to cAMP
GO:0061326	P:defense response to virus
GO:0070102	F:protein phosphatase 2A binding
GO:0070106	P:positive regulation of nitric-oxide synthase biosynthetic process
GO:0070491	P:interferon-gamma-mediated signaling pathway
GO:0070757	P:regulation of interferon-gamma-mediated signaling pathway
GO:0071346	P:type I interferon signaling pathway
GO:0071407	P:renal tubule development
GO:0072136	P:interleukin-6-mediated signaling pathway
GO:0072162	P:interleukin-27-mediated signaling pathway
GO:0072308	F:repressing transcription factor binding
GO:1990841	P:interleukin-35-mediated signaling pathway

KEGG Pathway
Reactome Pathway

Pathway ID	Pathway Name	Pathway Description (KEGG)
hsa04062	Chemokine signaling pathway	Inflammatory immune response requires the recruitment of leukocytes to the site of inflammation upon foreign insult. Chemokines are small chemoattractant peptides that provide directional cues for the cell trafficking and thus are vital for protective host response. In addition, chemokines regulate plethora of biological processes of hematopoietic cells to lead cellular activation, differentiation and survival.The chemokine signal is transduced by chemokine receptors (G-protein coupled receptors) expressed on the immune cells. After receptor activation, the alpha- and beta-gamma-subunits of G protein dissociate to activate diverse downstream pathways resulting in cellular polarization and actin reorganization. Various members of small GTPases are involved in this process. Induction of nitric oxide and production of reactive oxygen species are as well regulated by chemokine signal via calcium mobilization and diacylglycerol production.
hsa04217	Necroptosis	Necroptosis is a programmed form of necrosis. It can be initiated by different stimuli, such as tumor necrosis factor (TNF), TNF-related apoptosis-inducing ligand (TRAIL), Fas ligand (FasL), interferon (IFN), LPS, viral DNA or RNA, DNA-damage agent and requires the kinase activity of receptor-interacting protein 1 (RIPK1) and RIPK3. Its execution involves ROS generation, calcium overload, the opening of the mitochondrial permeability transition pore, mitochondrial fission, inflammatory response and chromatinolysis. Necroptosis participates in many pathogenesis of diseases, including neurological diseases, retinal disorders, acute kidney injury, inflammatory diseases and microbial infections.
hsa04380	Osteoclast differentiation	The osteoclasts, multinucleared cells originating from the hematopoietic monocyte-macrophage lineage, are responsible for bone resorption. Osteoclastogenesis is mainly regulated by signaling pathways activated by RANK and immune receptors, whose ligands are expressed on the surface of osteoblasts. Signaling from RANK changes gene expression patterns through transcription factors like NFATc1 and characterizes the active osteoclast.
hsa04620	Toll-like receptor signaling pathway	Specific families of pattern recognition receptors are responsible for detecting microbial pathogens and generating innate immune responses. Toll-like receptors (TLRs) are membrane-bound receptors identified as homologs of Toll in Drosophila. Mammalian TLRs are expressed on innate immune cells, such as macrophages and dendritic cells, and respond to the membrane components of Gram-positive or Gram-negative bacteria. Pathogen recognition by TLRs provokes rapid activation of innate immunity by inducing production of proinflammatory cytokines and upregulation of costimulatory molecules. TLR signaling pathways are separated into two groups: a MyD88-dependent pathway that leads to the production of proinflammatory cytokines with quick activation of NF-{kappa}B and MAPK, and a MyD88-independent pathway associated with the induction of IFN-beta and IFN-inducible genes, and maturation of dendritic cells with slow activation of NF-{kappa}B and MAPK.
hsa04621	NOD-like receptor signaling pathway	Specific families of pattern recognition receptors are responsible for detecting various pathogens and generating innate immune responses. The intracellular NOD-like receptor (NLR) family contains more than 20 members in mammals and plays a pivotal role in the recognition of intracellular ligands. NOD1 and NOD2, two prototypic NLRs, sense the cytosolic presence of the bacterial peptidoglycan fragments that escaped from endosomal compartments, driving the activation of NF-{kappa}B and MAPK, cytokine production and apoptosis. On the other hand, a different set of NLRs induces caspase-1 activation through the assembly of multiprotein complexes called inflammasomes. The activated of caspase-1 regulates maturation of the pro-inflammatory cytokines IL-1B, IL-18 and drives pyroptosis.
hsa04625	C-type lectin receptor signaling pathway	C-type lectin receptors (CLRs) are a large superfamily of proteins characterized by the presence of one or more C-type lectin-like domains (CTLDs). CLRs function as pattern-recognition receptors (PRRs) for pathogen-derived ligands in dendric cells, macrophages, neutrophils, etc., such as Dectin-1 and Dectin-2 for recognition of fungi-derived B-glucan and high mannose-type carbohydrates. Upon ligand binding, CLRs stimulate intracellular signaling cascades that induce the production of inflammatory cytokines and chemokines, consequently triggering innate and adaptive immunity to pathogens.
hsa04630	Jak-STAT signaling pathway	The Janus kinase/signal transducers and activators of transcription (JAK/STAT) pathway is one of a handful of pleiotropic cascades used to transduce a multitude of signals for development and homeostasis in animals, from humans to flies. In mammals, the JAK/STAT pathway is the principal signaling mechanism for a wide array of cytokines and growth factors. Following the binding of cytokines to their cognate receptor, STATs are activated by members of the JAK family of tyrosine kinases. Once activated, they dimerize and translocate to the nucleus and modulate the expression of target genes. In addition to the activation of STATs, JAKs mediate the recruitment of other molecules such as the MAP kinases, PI3 kinase etc. These molecules process downstream signals via the Ras-Raf-MAP kinase and PI3 kinase pathways which results in the activation of additional transcription factors.
hsa04658	Th1 and Th2 cell differentiation	Immunity to different classes of microorganisms is orchestrated by separate lineages of effector T helper (TH)-cells, which differentiate from naive CD4+ precursor cells in response to cues provided by antigen presenting cells (APC) and include T helper type 1 (Th1) and Th2. Th1 cells are characterized by the transcription factor T-bet and signal transducer and activator of transcription (STAT) 4, and the production of IFN-gamma. These cells stimulate strong cell-mediated immune responses, particularly against intracellular pathogens. On the other hand, transcription factors like GATA-3 and STAT6 drive the generation of Th2 cells that produce IL-4, IL-5 and IL-13 and are necessary for inducing the humoral response to combat parasitic helminths (type 2 immunity) and isotype switching to IgG1 and IgE. The balance between Th1/Th2 subsets determines the susceptibility to disease states, where the improper development of Th2 cells can lead to allergy, while an overactive Th1 response can lead to autoimmunity.
hsa04659	Th17 cell differentiation	Interleukin (IL)-17-producing helper T (Th17) cells serve as a subset of CD4+ T cells involved in epithelial cell- and neutrophil mediated immune responses against extracellular microbes and in the pathogenesis of autoimmune diseases. In vivo, Th17 differentiation requires antigen presentation and co-stimulation, and activation of antigen presenting-cells (APCs) to produce TGF-beta, IL-6, IL-1, IL-23 and IL-21. This initial activation results in the activation and up-regulation of STAT3, ROR(gamma)t and other transcriptional factors in CD4+ T cells, which bind to the promoter regions of the IL-17, IL-21 and IL-22 genes and induce IL-17, IL-21 and IL-22. In contrast, the differentiation of Th17 cells and their IL-17 expression are negatively regulated by IL-2, Th2 cytokine IL-4, IL-27 and Th1 cytokine IFN-gamma through STAT5, STAT6 and STAT1 activation, respectively. Retinoid acid and the combination of IL-2 and TGF-beta upregulate Foxp3, which also downregulates cytokines like IL-17 and IL-21. The inhibition of Th17 differentiation may serve as a protective strategy to 'fine-tune' the expression IL-17 so it does not cause excessive inflammation. Thus, balanced differentiation of Th cells is crucial for immunity and host protection.
hsa04917	Prolactin signaling pathway	Prolactin (PRL) is a polypeptide hormone known to be involved in a wide range of biological functions including osmoregulation, lactation, reproduction, growth and development, endocrinology and metabolism, brain and behavior, and immunomodulation. PRL mediates its action through PRLR, a transmembrane protein of the hematopoietin cytokine receptor superfamily. At the protein level, the long PRLR isoform (long-R) and several short PRLR isoforms (short-R) have been detected. Acting through the long-R, PRL activates many signaling cascades including Jak2/Stat, the major cascade, Src kinase, phosphatidylinositol-3-kinase (PI3K)/AKT, and mitogen-activated protein kinase (MAPK) pathways. PRL cannot activate Jak2/Stat5 through the short-R, but can activate pathways including MAPK and PI3K pathways.
hsa04919	Thyroid hormone signaling pathway	The thyroid hormones (THs) are important regulators of growth, development and metabolism. The action of TH is mainly mediated by T3 (3,5,3'-triiodo-L-thyronine). Thyroid hormones, L-thyroxine (T4) and T3 enter the cell through transporter proteins. Although the major form of TH in the blood is T4, it is converted to the more active hormone T3 within cells. T3 binds to nuclear thyroid hormone receptors (TRs), which functions as a ligand-dependent transcription factor and controls the expression of target genes (genomic action). Nongenomic mechanisms of action is initiated at the integrin receptor. The plasma membrane alpha(v)beta(3)-integrin has distinct binding sites for T3 and T4. One binding site binds only T3 and activates the phosphatidylinositol 3-kinase (PI3K) pathway. The other binding site binds both T3 and T4 and activates the ERK1/2 MAP kinase pathway.
hsa04933	AGE-RAGE signaling pathway in diabetic complications	Advanced glycation end products (AGEs) are a complex group of compounds produced through the non-enzymatic glycation and oxidation of proteins, lipids and nucleic acids, primarily due to aging and under certain pathologic condition such as huperglycemia. Some of the best chemically characterized AGEs include N-epsilon-carboxy-methyl-lysine (CML), N-epsilon-carboxy-ethyl-lysine (CEL), and Imidazolone. The major receptor for AGEs, known as receptor for advanced glycation end products (RAGE or AGER), belongs to the immunoglobulin superfamily and has been described as a pattern recognition receptor. AGE/RAGE signaling elicits activation of multiple intracellular signal pathways involving NADPH oxidase, protein kinase C, and MAPKs, then resulting in NF-kappaB activity. NF-kappa B promotes the expression of pro-inflammatory cytokines such as IL-1, IL-6 and TNF-alpha and a variety of atherosclerosis-related genes, including VCAM-1, tissue factor, VEGF, and RAGE. In addition, JAK-STAT-mediated and PI3K-Akt-dependent pathways are induced via RAGE, which in turn participate in cell proliferation and apoptosis respectively. Hypoxia-mediated induction of Egr-1 was also shown to require the AGE-RAGE interaction. The results of these signal transductions have been reported to be the possible mechanism that initates diabetic complications.
hsa05140	Leishmaniasis	Leishmania is an intracellular protozoan parasite of macrophages that causes visceral, mucosal, and cutaneous diseases. The parasite is transmitted to humans by sandflies, where they survive and proliferate intracellularly by deactivating the macrophage. Successful infection of Leishmania is achieved by alteration of signaling events in the host cell, leading to enhanced production of the autoinhibitory molecules like TGF-beta and decreased induction of cytokines such as IL12 for protective immunity. Nitric oxide production is also inhibited. In addition, defective expression of major histocompatibility complex (MHC) genes silences subsequent T cell activation mediated by macrophages, resulting in abnormal immune responses.
hsa05145	Toxoplasmosis	Toxoplasma gondii is an obligate intracellular parasite that is prevalent worldwide. The tachyzoite form acquired by oral ingestion downmodulates proinflammatory signaling pathways via various mechanisms. During early infection, nuclear translocation of NFkB is temporally blocked and p38 MAPK phosphorylation is prevented, suppressing IL-12 production. Another pathway for IL-12 induction occurs through CCR5 dependent pathway, but parasitic induction of an eicosanoid LXA4 contributes to the downregulation of IL-12. Direct activation of STAT3 by the parasite enhance anti-inflammatory function of IL-10 and TGF beta. T. gondii can cause lifelong chronic infection by establishing an anti-apoptotic environment through induction of bcl-2 or IAPs and by redirecting LDL-mediated cholesterol transport to scavenge nutrients from the host.
hsa05152	Tuberculosis	Tuberculosis, or TB, is an infectious disease caused by Mycobacterium tuberculosis. One third of the world's population is thought to be infected with TB. About 90% of those infected result in latent infections, and about 10% of latent infections develop active diseases when their immune system is impaired due to the age, other diseases such as AIDS or exposure to immunosuppressive drugs. TB is transmitted through the air and primarily attacks the lungs, then it can spread by the circulatory system to other parts of body. Once TB bacilli have entered the host by the respiratory route and infected macrophages in the lungs, they interfere with phagosomal maturation, antigen presentation, apoptosis and host immune system to establish persistent or latent infection.
hsa05160	Hepatitis C	Hepatitis C virus (HCV) is a major cause of chronic liver disease. The HCV employ several strategies to perturb host cell immunity. After invasion, HCV RNA genome functions directly as an mRNA in the cytoplasm of the host cell and forms membrane-associated replication complexes along with non-structural proteins. Viral RNA can trigger the RIG-I pathway and interferon production during this process. Translated HCV protein products regulate immune response to inhibit the action of interferon. HCV core and NS5A proteins appear to be the most important molecules with regulatory functions that modulate transcription, cellular proliferation, and apoptosis.
hsa05161	Hepatitis B	Hepatitis B virus (HBV) is an enveloped virus and contains a partially double-stranded relaxed circular DNA (RC-DNA) genome. After entry into hepatocytes, HBV RC-DNA is transported to the nucleus and converted into a covalently closed circular molecule cccDNA. The cccDNA is the template for transcription of all viral RNAs including the pregenomic RNA (pgRNA), encoding for 7 viral proteins: large, middle, and small envelope proteins (LHBs, MHBs, and SHBs) that form the surface antigen (HBsAg), the core antigen (HBcAg), the e antigen (HBeAg), the HBV polymerase, and the regulatory protein X (HBx). The pgRNA interacts with the viral polymerase protein to initiate the encapsidation into the core particles. Through endoplasmic reticulum, the core particles finish assembling with the envelope proteins and are released. HBV infection leads to a wide spectrum of liver diseases raging from chronic hepatitis, cirrhosis to hepatocellular carcinoma. The mechanism of liver injury is still not clear. However, HBV proteins target host proteins, involved in a variety of functions, thus regulating transcription, cellular signaling cascades, proliferation, differentiation, and apoptosis.
hsa05162	Measles	Measles virus (MV) is highly contagious virus that leads infant death worldwide. Humans are the unique natural reservoir for this virus. It causes severe immunosuppression favouring secondary bacterial infections. Several MV proteins have been suggested to disturb host immunity. After infection of host lymphoid cells via SLAM, MV inhibits cytokine response by direct interference with host signaling systems. Three proteins (P, V, and C) associate with Jak/STAT proteins in interferon-triggered pathway and other important proteins related to apoptosis. Interaction between MV and host brings about the shift towards a Th2 response by decreasing IL-12 production and induces lymphopenia by suppressing cell proliferation.
hsa05164	Influenza A	Influenza is a contagious respiratory disease caused by influenza virus infection. Influenza A virus is responsible for both annual seasonal epidemics and periodic worldwide pandemics. Novel strains that cause pandemics arise from avian influenza virus by genetic reassortment among influenza viruses and two surface glycoproteins HA and NA form the basis of serologically distinct virus types. The innate immune system recognizes invaded virus through multiple mechanisms. Viral non-structural NS1 protein is a multifunctional virulence factor that interfere IFN-mediated antiviral response. It inhibits IFN production by blocking activation of transcription factors such as NF-kappa B, IRF3 and AP1. NS1 further inhibits the activation of IFN-induced antiviral genes. PB1-F2 protein is another virulence factor that induce apoptosis of infected cells, which results in life-threatening bronchiolitis.
hsa05165	Human papillomavirus infection	Human papillomavirus (HPV) is a non-enveloped, double-stranded DNA virus. HPV infect mucoal and cutaneous epithelium resulting in several types of pathologies, most notably, cervical cancer. All types of HPV share a common genomic structure and encode eight proteins: E1, E2, E4, E5, E6, and E7 (early) and L1 and L2 (late). It has been demonstrated that E1 and E2 are involved in viral transcription and replication. The functions of the E4 protein is not yet fully understood. E5, E6, and E7 act as oncoproteins. E5 inhibits the V-ATPase, prolonging EGFR signaling and thereby promoting cell proliferation. The expression of E6 and E7 not only inhibits the tumor suppressors p53 and Rb, but also alters additional signalling pathways. Among these pathways, PI3K/Akt signalling cascade plays a very important role in HPV-induced carcinogenesis. The L1 and L2 proteins form icosahedral capsids for progeny virion generation.
hsa05167	Kaposi sarcoma-associated herpesvirus infection	Kaposi sarcoma-associated herpesvirus (KSHV), also known as human herpesvirus 8 (HHV-8), is the most recently identified human tumor virus, and is associated with the pathogenesis of Kaposi's sarcoma (KS), primary effusion lymphoma (PEL), and Multicentric Castleman's disease (MCD). Like all other herpesviruses, KSHV displays two modes of life cycle, latency and lytic replication, which are characterized by the patterns of viral gene expression. Genes expressed in latency (LANA, v-cyclin, v-FLIP, Kaposins A, B and C and viral miRNAs) are mainly thought to facilitate the establishment of life long latency in its host and survival against the host innate, and adaptive immune surveillance mechanisms. Among the viral proteins shown to be expressed during lytic replication are potent signaling molecules such as vGPCR, vIL6, vIRFs, vCCLs, K1 and K15, which have been implicated experimentally in the angiogenic and inflammatory phenotype observed in KS lesions. Several of these latent viral and lytic proteins are known to transform host cells, linking KSHV with the development of severe human malignancies.
hsa05168	Herpes simplex infection	Herpes simplex virus (HSV) infections are very common worldwide, with the prevalence of HSV-1 reaching up to 80%-90%. Primary infection with HSV takes place in the mucosa, followed by the establishment of latent infection in neuronal ganglia. HSV is the main cause of herpes infections that lead to the formation of characteristic blistering lesion. HSV express multiple viral accessory proteins that interfere with host immune responses and are indispensable for viral replication. Among these proteins, the immediate early (IE) gene ICP0, ICP4, and ICP27 are essential for regulation of HSV gene expression in productive infection. On the other hand, ORF P and ORF O gene are transcribed during latency and blocks the expression of the IE genes, thus maintaining latent infection.
hsa05169	Epstein-Barr virus infection	Epstein-Barr virus (EBV) is a gamma-herpes virus that widely infects human populations predominantly at an early age but remains mostly asymptomatic. EBV has been linked to a wide spectrum of human malignancies, including nasopharyngeal carcinoma and other hematologic cancers, like Hodgkin's lymphoma, Burkitt's lymphoma (BL), B-cell immunoblastic lymphoma in HIV patients, and posttransplant-associated lymphoproliferative diseases. EBV has the unique ability to establish life-long latent infection in primary human B lymphocytes. During latent infection, EBV expresses a small subset of genes, including 6 nuclear antigens (EBNA-1, -2, -3A, -3B, -3C, and -LP), 3 latent membrane proteins (LMP-1, -2A, and -2B), 2 small noncoding RNAs (EBER-1 and 2). On the basis of these latent gene expression, three different latency patterns associated with the types of cancers are recognized.
hsa05200	Pathways in cancer
hsa05212	Pancreatic cancer	Infiltrating ductal adenocarcinoma is the most common malignancy of the pancreas. When most investigators use the term 'pancreatic cancer' they are referring to pancreatic ductal adenocarcinoma (PDA). Normal duct epithelium progresses to infiltrating cancer through a series of histologically defined precursors (PanINs). The overexpression of HER-2/neu and activating point mutations in the K-ras gene occur early, inactivation of the p16 gene at an intermediate stage, and the inactivation of p53, SMAD4, and BRCA2 occur relatively late. Activated K-ras engages multiple effector pathways. Although EGF receptors are conventionally regarded as upstream activators of RAS proteins, they can also act as RAS signal transducers via RAS-induced autocrine activation of the EGFR family ligands. Moreover, PDA shows extensive genomic instability and aneuploidy. Telomere attrition and mutations in p53 and BRCA2 are likely to contribute to these phenotypes. Inactivation of the SMAD4 tumour suppressor gene leads to loss of the inhibitory influence of the transforming growth factor-beta signalling pathway.
hsa05321	Inflammatory bowel disease (IBD)	Inflammatory bowel disease (IBD), which includes Crohn disease (CD) and ulcerative colitis (UC), is characterized by chronic inflammation of the gastrointestinal tract due to environmental and genetic factors, infectious microbes, and the dysregulated immune system. Although many environmental factors (for example, geographic locations, smoking, etc.) affect the development of IBD, the most crucial might be the luminal (external) environment of the epithelial cells. There are pathogens that are found in increasing frequency in IBD. The microbial components such as flagellin, peptidoglycan, and lipopolysaccharide are recognized by receptors such as toll-like receptors (TLRs) and nucleotide-binding oligomerization domain (NOD) proteins, and also by antigen-presenting cells (APCs) in genetically susceptible host. The TLR recognition triggers the activation of NF-kappaB, leading to an inflammatory response. APC-expressed gene NOD2 has been associated with Crohn disease. In case of mutations of NOD2, negative regulation of IL-12 production is reduced with the stimulation of muramyl dipeptide (MDP), leading to CD. In addition, the APC mediates the differentiation of naive T cells into effector T cells (Th1, Th17, Th2) and natural killer T (NKT) cells. Th1 and Th17 cells produce high levels of IFN-gamma and IL-17, -22, respectively, both of which promote CD. In contrast, Th2 cells produce IL-4, -5, -10, which together with IL-13 from NKT induce UC.

Pathway ID	Pathway Name	Pathway Description (KEGG)
R-HSA-1059683	Interleukin-6 signaling.	Interleukin-6 (IL-6) is a pleiotropic cytokine with roles in processes including immune regulation, hematopoiesis, inflammation, oncogenesis, metabolic control and sleep. It is the founding member of a family of IL-6-related cytokines such as IL-11, IL-27 leukemia inhibitory factor (LIF), cilliary neurotrophic factor (CNTF) and oncostatin M. The IL-6 receptor (IL6R) consists of an alpha subunit that specifically binds IL-6 and a beta subunit, IL6RB or gp130, which is the signaling component of all the receptors for cytokines related to IL-6. IL6R alpha exists in transmembrane and soluble forms. The transmembrane form is mainly expressed by hepatocytes, neutrophils, monocytes/macrophages, and some lymphocytes. Soluble forms of IL6R (sIL6R) are also expressed by these cells. Two major mechanisms for the production of sIL6R have been proposed. Alternative splicing generates a transcript lacking the transmembrane domain by using splicing donor and acceptor sites that flank the transmembrane domain coding region. This also introduces a frameshift leading to the incorporation of 10 additional amino acids at the C terminus of sIL6R.A second mechanism for the generation of sIL6R is the proteolytic cleavage or 'shedding' of membrane-bound IL-6R. Two proteases ADAM10 and ADAM17 are thought to contribute to this (Briso et al. 2008). sIL6R can bind IL6 and stimulate cells that express gp130 but not IL6R alpha, a process that is termed trans-signaling. This explains why many cells, including hematopoietic progenitor cells, neuronal cells, endothelial cells, smooth muscle cells, and embryonic stem cells, do not respond to IL6 alone, but show a remarkable response to IL6/sIL6R. It is clear that the trans-signaling pathway is responsible for the pro-inflammatory activities of IL-6 whereas the membrane bound receptor governs regenerative and anti-inflammatory IL-6 activitiesIL6R signal transduction is mediated by two pathways:the JAK-STAT (Janus family tyrosine kinase-signal transducer and activator of transcription) pathway and the Ras-MAPK (mitogen-activated protein kinase) pathway. Negative regulators of IL-6 signaling include SOCS (suppressor of cytokine signals) and SHP2. Within the last few years different antibodies have been developed to inhibit IL-6 activity, and the first such antibodies have been introduced into the clinic for the treatment of inflammatory diseases (Kopf et al. 2010)
R-HSA-1169408	ISG15 antiviral mechanism.	Interferon-stimulated gene 15 (ISG15) is a member of the ubiquitin-like (Ubl) family. It is strongly induced upon exposure to type I Interferons (IFNs), viruses, bacterial LPS, and other stresses. Once released the mature ISG15 conjugates with an array of target proteins, a process termed ISGylation. ISGylation utilizes a mechanism similar to ubiquitination, requiring a three-step enzymatic cascade. UBE1L is the ISG15 E1 activating enzyme which specifically activates ISG15 at the expense of ATP. ISG15 is then transfered from E1 to the E2 conjugating enzyme UBCH8 and then to the target protein with the aid of an ISG15 E3 ligase, such as HERC5 and EFP. Hundreds of target proteins for ISGylation have been identified. Several proteins that are part of antiviral signaling pathways, such as RIG-I, MDA5, Mx1, PKR, filamin B, STAT1, IRF3 and JAK1, have been identified as targets for ISGylation. ISG15 also conjugates some viral proteins, inhibiting viral budding and release. ISGylation appears to act either by disrupting the activity of a target protein and/or by altering its localization within the cell
R-HSA-1433557	Signaling by SCF-KIT.	Stem cell factor (SCF) is a growth factor with membrane bound and soluble forms. It is expressed by fibroblasts and endothelial cells throughout the body, promoting proliferation, migration, survival and differentiation of hematopoetic progenitors, melanocytes and germ cells.(Linnekin 1999, Ronnstrand 2004, Lennartsson and Ronnstrand 2006). The receptor for SCF is KIT, a tyrosine kinase receptor (RTK) closely related to the receptors for platelet derived growth factor receptor, colony stimulating factor 1 (Linnekin 1999) and Flt3 (Rosnet et al. 1991). Four isoforms of c-Kit have been identified in humans. Alternative splicing results in isoforms of KIT differing in the presence or absence of four residues (GNNK) in the extracellular region. This occurs due to the use of an alternate 5' splice donor site. These GNNK+ and GNNK- variants are co-expressed in most tissues; the GNNK- form predominates and was more strongly tyrosine-phosphorylated and more rapidly internalized (Ronnstrand 2004). There are also splice variants that arise from alternative usage of splice acceptor site resulting in the presence or absence of a serine residue (Crosier et al., 1993). Finally, there is an alternative shorter transcript of KIT expressed in postmeiotic germ cells in the testis which encodes a truncated KIT consisting only of the second part of the kinase domain and thus lackig the extracellular and transmembrane domains as well as the first part of the kinase domain (Rossi et al. 1991). Binding of SCF homodimers to KIT results in KIT homodimerization followed by activation of its intrinsic tyrosine kinase activity. KIT stimulation activates a wide array of signalling pathways including MAPK, PI3K and JAK/STAT (Reber et al. 2006, Ronnstrand 2004). Defects of KIT in humans are associated with different genetic diseases and also in several types of cancers like mast cell leukaemia, germ cell tumours, certain subtypes of malignant melanoma and gastrointestinal tumours
R-HSA-1839117	Signaling by cytosolic FGFR1 fusion mutants.	8p11 myeloproliferative syndrome (EMS) is an aggressive disorder that is associated with a translocation event at the FGFR1 gene on chromosome 8p11. Typical symptoms upon diagnosis include eosinophilia and associated T-cell lymphoblastic lymphoma; the disease rapidly advances to acute leukemia, usually of myeloid lineage. At present the only effective treatment is allogenic stem cell transplantation (reviewed in Jackson, 2010). At the molecular level, EMS appears to be caused by translocation events on chromosome 8 that create gene fusions between the intracellular domain of FGFR1 and an N-terminal partner gene that encodes a dimerization domain. The resulting fusion protein dimerizes in a ligand-independent fashion based the N-terminal domain provided by the partner protein and stimulates constititutive downstream FGFR1 signaling without altering the intrisic kinase activity of the receptor. To date, 11 partner genes have been identified: ZMYM2, FGFR1OP, FGFR1OP2, HERVK, TRIM24, CUX1, BCR, CEP110, LRRFIP1, MYO18A and CPSF6, although not all have been functionally characterized (reviewed in Jackson, 2010, Turner and Grose, 2010; Wesche, 2011). Where examined, cell lines carrying FGFR1 fusion genes have been shown to be transforming and to support IL3-independent proliferation through anti-apoptotic, prosurvival pathways(Lelievre, 2008; Ollendorff, 1999; Chase, 2007; Guasch, 2001; Wasag 2011; Roumiantsev, 2004; Demiroglu, 2001; Smedley, 1999). Signaling appears to occur predominantly through PLCgamma, PI3K and STAT signaling, with a more minor contribution from MAPK activation. Because the fusion proteins lack the FRS2-binding site, the mechanism of MAPK activation is unclear. Recruitment of GRB2:SOS1 through recruitment of SHC is one possibility (Guasch, 2001)
R-HSA-186763	Downstream signal transduction.	The role of autophosphorylation sites on PDGF receptors are to provide docking sites for downstream signal transduction molecules which contain SH2 domains. The SH2 domain is a conserved motif of around 100 amino acids that can bind a phosphorylated tyrosine residue. These downstream molecules are activated upon binding to, or phosphorylated by, the receptor kinases intrinsic to PDGF receptors.Some of the dowstream molecules are themselves enzymes, such as phosphatidylinositol 3'-kinase (PI3K), phospholipase C (PLC-gamma), the Src family of tyrosine kinases, the tyrosine phosphatase SHP2, and a GTPase activating protein (GAP) for Ras. Others such as Grb2 are adaptor molecules which link the receptor with downstream catalytic molecules
R-HSA-6785807	Interleukin-4 and Interleukin-13 signaling.	Interleukin-4 (IL4) is a principal regulatory cytokine during the immune response, crucially important in allergy and asthma (Nelms et al. 1999). When resting T cells are antigen-activated and expand in response to Interleukin-2 (IL2), they can differentiate as Type 1 (Th1) or Type 2 (Th2) T helper cells. The outcome is influenced by IL4. Th2 cells secrete IL4, which both stimulates Th2 in an autocrine fashion and acts as a potent B cell growth factor to promote humoral immunity (Nelms et al. 1999). Interleukin-13 (IL13) is an immunoregulatory cytokine secreted predominantly by activated Th2 cells. It is a key mediator in the pathogenesis of allergic inflammation. IL13 shares many functional properties with IL4, stemming from the fact that they share a common receptor subunit. IL13 receptors are expressed on human B cells, basophils, eosinophils, mast cells, endothelial cells, fibroblasts, monocytes, macrophages, respiratory epithelial cells, and smooth muscle cells, but unlike IL4, not T cells. Thus IL13 does not appear to be important in the initial differentiation of CD4 T cells into Th2 cells, rather it is important in the effector phase of allergic inflammation (Hershey et al. 2003).\n\nIL4 and IL13 induce “alternative activation” of macrophages, inducing an anti-inflammatory phenotype by signaling through IL4R alpha in a STAT6 dependent manner. This signaling plays an important role in the Th2 response, mediating anti-parasitic effects and aiding wound healing (Gordon & Martinez 2010, Loke et al. 2002)\n\nThere are two types of IL4 receptor complex (Andrews et al. 2006). Type I IL4R (IL4R1) is predominantly expressed on the surface of hematopoietic cells and consists of IL4R and IL2RG, the common gamma chain. Type II IL4R (IL4R2) is predominantly expressed on the surface of nonhematopoietic cells, it consists of IL4R and IL13RA1 and is also the type II receptor for IL13. (Obiri et al. 1995, Aman et al. 1996, Hilton et al. 1996, Miloux et al. 1997, Zhang et al. 1997). The second receptor for IL13 consists of IL4R and Interleukin-13 receptor alpha 2 (IL13RA2), sometimes called Interleukin-13 binding protein (IL13BP). It has a high affinity receptor for IL13 (Kd = 250 pmol/L) but is not sufficient to render cells responsive to IL13, even in the presence of IL4R (Donaldson et al. 1998). It is reported to exist in soluble form (Zhang et al. 1997) and when overexpressed reduces JAK-STAT signaling (Kawakami et al. 2001). It's function may be to prevent IL13 signalling via the functional IL4R:IL13RA1 receptor. IL13RA2 is overexpressed and enhances cell invasion in some human cancers (Joshi & Puri 2012).The first step in the formation of IL4R1 (IL4:IL4R:IL2RB) is the binding of IL4 with IL4R (Hoffman et al. 1995, Shen et al. 1996, Hage et al. 1999). This is also the first step in formation of IL4R2 (IL4:IL4R:IL13RA1). After the initial binding of IL4 and IL4R, IL2RB binds (LaPorte et al. 2008), to form IL4R1. Alternatively, IL13RA1 binds, forming IL4R2. In contrast, the type II IL13 complex (IL13R2) forms with IL13 first binding to IL13RA1 followed by recruitment of IL4R (Wang et al. 2009).Crystal structures of the IL4:IL4R:IL2RG, IL4:IL4R:IL13RA1 and IL13:IL4R:IL13RA1 complexes have been determined (LaPorte et al. 2008). Consistent with these structures, in monocytes IL4R is tyrosine phosphorylated in response to both IL4 and IL13 (Roy et al. 2002, Gordon & Martinez 2010) while IL13RA1 phosphorylation is induced only by IL13 (Roy et al. 2002, LaPorte et al. 2008) and IL2RG phosphorylation is induced only by IL4 (Roy et al. 2002).Both IL4 receptor complexes signal through Jak/STAT cascades. IL4R is constitutively-associated with JAK2 (Roy et al. 2002) and associates with JAK1 following binding of IL4 (Yin et al. 1994) or IL13 (Roy et al. 2002). IL2RG constitutively associates with JAK3 (Boussiotis et al. 1994, Russell et al. 1994). IL13RA1 constitutively associates with TYK2 (Umeshita-Suyama et al. 2000, Roy et al. 2002, LaPorte et al. 2008, Bhattacharjee et al. 2013). IL4 binding to IL4R1 leads to phosphorylation of JAK1 (but not JAK2) and STAT6 activation (Takeda et al. 1994, Ratthe et al. 2007, Bhattacharjee et al. 2013). IL13 binding increases activating tyrosine-99 phosphorylation of IL13RA1 but not that of IL2RG. IL4 binding to IL2RG leads to its tyrosine phosphorylation (Roy et al. 2002). IL13 binding to IL4R2 leads to TYK2 and JAK2 (but not JAK1) phosphorylation (Roy & Cathcart 1998, Roy et al. 2002).Phosphorylated TYK2 binds and phosphorylates STAT6 and possibly STAT1 (Bhattacharjee et al. 2013). A second mechanism of signal transduction activated by IL4 and IL13 leads to the insulin receptor substrate (IRS) family (Kelly-Welch et al. 2003). IL4R1 associates with insulin receptor substrate 2 and activates the PI3K/Akt and Ras/MEK/Erk pathways involved in cell proliferation, survival and translational control. IL4R2 does not associate with insulin receptor substrate 2 and consequently the PI3K/Akt and Ras/MEK/Erk pathways are not activated (Busch-Dienstfertig & González-Rodríguez 2013)
R-HSA-877300	Interferon gamma signaling.	Interferon-gamma (IFN-gamma) belongs to the type II interferon family and is secreted by activated immune cells-primarily T and NK cells, but also B-cells and APC. INFG exerts its effect on cells by interacting with the specific IFN-gamma receptor (IFNGR). IFNGR consists of two chains, namely IFNGR1 (also known as the IFNGR alpha chain) and IFNGR2 (also known as the IFNGR beta chain). IFNGR1 is the ligand binding receptor and is required but not sufficient for signal transduction, whereas IFNGR2 do not bind IFNG independently but mainly plays a role in IFNG signaling and is generally the limiting factor in IFNG responsiveness. Both IFNGR chains lack intrinsic kinase/phosphatase activity and thus rely on other signaling proteins like Janus-activated kinase 1 (JAK1), JAK2 and Signal transducer and activator of transcription 1 (STAT-1) for signal transduction. IFNGR complex in its resting state is a preformed tetramer and upon IFNG association undergoes a conformational change. This conformational change induces the phosphorylation and activation of JAK1, JAK2, and STAT1 which in turn induces genes containing the gamma-interferon activation sequence (GAS) in the promoter
R-HSA-877312	Regulation of IFNG signaling.	At least three different classes of negative regulators exist to control the extent of INFG stimulation and signaling. These include the feedback inhibitors belonging to protein family suppressors of cytokine signaling (SOCS), the Scr-homology 2 (SH2)-containing protein tyrosine phosphatases (SHPs), and the protein inhibitors of activated STATs (PIAS). The induction of these regulators seems to be able to stop further signal transduction by inhibiting various steps in IFNG cascade
R-HSA-8854691	Interleukin-20 family signaling.	The interleukin 20 (IL20) subfamily comprises IL19, IL20, IL22, IL24 and IL26. They are members of the larger IL10 family, but have been grouped together based on their usage of common receptor subunits and similarities in their target cell profiles and biological functions. Members of the IL20 subfamily facilitate the communication between leukocytes and epithelial cells, thereby enhancing innate defence mechanisms and tissue repair processes at epithelial surfaces. Much of the understanding of this group of cytokines is based on IL22, which is the most studied member (Rutz et al. 2014, Akdis M et al. 2016, Longsdon et al. 2012)
R-HSA-8939902	Regulation of RUNX2 expression and activity.	Several transcription factors have been implicated in regulation of the RUNX2 gene transcription. Similar to the RUNX1 gene, the RUNX2 gene expression can be regulated from the proximal P2 promoter or the distal P1 promoter (reviewed in Li and Xiao 2007).Activated estrogen receptor alpha (ESR1) binds estrogen response elements (EREs) in the P2 promoter and stimulates RUNX2 transcription (Kammerer et al. 2013). Estrogen-related receptor alpha (ERRA) binds EREs or estrogen-related response elements (ERREs) in the P2 promoter of RUNX2. When ERRA is bound to its co-factor PPARG1CA (PGC1A), it stimulates RUNX2 transcription. When bound to its co-factor PPARG1CB (PGC1B), ERRA represses RUNX2 transcription (Kammerer et al. 2013).TWIST1, a basic helix-loop-helix (bHLH) transcription factor, stimulates RUNX2 transcription by binding to the E1-box in the P2 promoter (Yang, Yang et al. 2011). TWIST proteins also interact with the DNA-binding domain of RUNX2 to modulate its activity during skeletogenesis (Bialek et al. 2004). Schnurri-3 (SHN3) is another protein that interacts with RUNX2 to decrease its availability in the nucleus and therefore its activity (Jones et al. 2006). In contrast, RUNX2 and SATB2 interact to enhance the expression of osteoblast-specific genes (Dobreva et al. 2006). Formation of the heterodimer with CBFB (CBF-beta) also enhances the transcriptional activity of RUNX2 (Kundu et al. 2002, Yoshida et al. 2002, Otto et al. 2002).Transcription of RUNX2 from the proximal promoter is inhibited by binding of the glucocorticoid receptor (NR3C1) activated by dexamethasone (DEXA) to a glucocorticoid receptor response element (GRE), which is also present in the human promoter (Zhang et al. 2012).NKX3-2 (BAPX1), required for embryonic development of the axial skeleton (Tribioli and Lufkin 1999), binds the distal (P1) promoter of the RUNX2 gene and inhibits its transcription (Lengner et al. 2005). RUNX2-P1 transcription is also autoinhibited by RUNX2-P1, which binds to RUNX2 response elements in the P1 promoter of RUNX2 (Drissi et al. 2000). In contrast, binding of RUNX2-P2 to the proximal P2 promoter autoactivates transcription of RUNX2-P2 (Ducy et al. 1999). Binding of a homeodomain transcription factor DLX5, and possibly DLX6, to the RUNX2 P1 promoter stimulates RUNX2 transcription (Robledo et al. 2002, Lee et al. 2005). The homeobox transcription factor MSX2 can bind to DLX5 sites in the promoter of RUNX2 and inhibit transcription of RUNX2-P1 (Lee et al. 2005).Translocation of RUNX2 protein to the nucleus is inhibited by binding to non-activated STAT1 (Kim et al. 2003).Several E3 ubiquitin ligases were shown to polyubiquitinate RUNX2, targeting it for proteasome-mediated degradation: FBXW7a (Kumar et al. 2015), STUB1 (CHIP) (Li et al. 2008), SMURF1 (Zhao et al. 2003, Yang et al. 2014), WWP1 (Jones et al. 2006), and SKP2 (Thacker et al. 2016)
R-HSA-8984722	Interleukin-35 Signalling.	Interleukin 35 (IL35) is an IL12 family cytokine produced by regulatory but not effector T-cells. It is a dimeric protein composed of IL-12RB2 and IL27RA chains. IL35 suppresses inflammatory responses of immune cells
R-HSA-8985947	Interleukin-9 signaling.	Interleukin 9 (IL9) binds interleukin 9 receptor a chain (IL9R) and the interleukin 2 receptor common gamma chain (IL2RG) to initiate IL9 signaling downstream cascade. IL9R colocalize with Interleukin 2 receptor α chain and MHC molecules in lipid rafts of human T lymphoma cells (Nizsalóczki et al. 2014). IL2RG is essential for IL9 dependent growth signal transduction (Kimura et al. 1995). IL9R (glycoprotein of 64 kDa) has saturable and specific binding sites with a Kd of 100 pM (Renauld et al. 1992). The activated IL9R complex recruits tyrosine kinase proteins from the Janus kinase (JAK) family: JAK1 (JAK1) and JAK3 (JAK3) for subsequent activation of the Signal transducer and activator of transcription (STAT) factors STAT1, STAT3 and STAT5. The activated STATs form STAT5 dimers and STAT1:STAT3 heterodimers (Neurath & Finotto 2016, Li & Rostami 2010)
R-HSA-9013508	NOTCH3 Intracellular Domain Regulates Transcription.	In the nucleus, NICD3 forms a complex with RBPJ (CBF1, CSL) and MAML (mastermind) proteins MAML1, MAML2 or MAML3 (possibly also MAMLD1). NICD3:RBPJ:MAML complex, also known as the NOTCH3 coactivator complex, activates transcription from RBPJ-binding promoter elements (Lin et al. 2002). While NOTCH1 prefers paired RBPJ binding sites, NOTCH3 preferentially binds to single RBPJ binding sites (Ong et al. 2006). NOTCH3 coactivator complex induces transcription of the well established NOTCH target genes HES1 (Lin et al. 2002, Boelens et al. 2014), HEYL (Maier and Gessler 2000, Geimer Le Lay et al. 2014), HES5 (Lin te al. 2002, Shimizu et al. 2002), and HEY2 (Wang et al. 2002). NOTCH3 positively regulates transcription of the pre-T-cell receptor alpha chain (PTCRA, commonly known as pT-alpha or pre-TCRalpha) (Talora et al. 2003, Bellavia et al. 2007). IK1, splicing isoform of the transcription factor Ikaros (IKZF1), competes with RBPJ for binding to the PTCRA promoter and inhibits PTCRA transcription. NOTCH3, through pre-TCR signaling, stimulates expression of the RNA binding protein HuD, which promotes splicing of IKZF1 into dominant negative isoforms. These dominant negative isoforms of IKZF1 heterodimerize with IK1, preventing its binding to target DNA sequences and thus contributing to sustained transcription of PTCRA (Bellavia et al. 2007, reviewed by Bellavia, Mecarrozzi, Campese, Grazioli, Gulino and Screpanti 2007). NOTCH3-triggered pre-TCR-signaling downregulates the activity of the transcription factor TCF3 (E2A), through ERK-dependent induction of ID1. Inhibition of TCF3-mediated transcription downstream of NOTCH3 contributes to development of T-cell lymphomas in transgenic mice expressing NICD3 (Talora et al. 2003). Activation of ERKs downstream of NOTCH3-stimulated pre-TCR signaling leads to phosphorylation of the transcription factor TAL1, formation of the TAL1:SP1 complex, and activation of cyclin D1 (CCND1) transcription, which stimulates cell division (Talora et al. 2006). NOTCH3 signaling can activate NF-kappaB (NFKB)-mediate transcription either indirectly, through activation of pre-TCR signaling, or directly, through association of NOTCH3 with IKKA. NFKB is constitutively active in T lymphoma cells derived from NOTCH3 transgenic mice (Vacca et al. 2006). Transcription of the PLXND1 gene, encoding the semaphorin receptor Plexin D1, is directly stimulated by NOTCH1 and NOTCH3 coactivator complexes. PLXND1 is involved in neuronal migration and cancer cell invasiveness (Rehman et al. 2016). Expression of FABP7 (BLBP) in radial glia is positively regulated by NOTCH1 and NOTCH3 during neuronal migration (Anthony et al. 2005, Keilani and Sugaya 2008). NOTCH3 gene is frequently amplified in ovarian cancer (Park et al. 2006). NOTCH3 coactivator complex directly stimulates DLGAP5 transcription. DLGAP5 is involved in G2/M transition and is overexpressed in ovarian cancer cells. (Chen et al. 2012). Another gene overexpressed in ovarian cancer whose transcription is directly stimulated by NOTCH3 is PBX1 (Park et al. 2008). The NOTCH3 coactivator complex directly stimulates WWC1 gene transcription. WWC1 gene encodes protein Kibra, involved in Hippo signaling. NOTCH3-mediated induction of WWC1 positively regulates Hippo signaling and inhibits epithelial-to-mesenchymal transition (EMT) in triple negative breast cancer cells (Zhang et al. 2016)
R-HSA-9020956	Interleukin-27 signaling.	Interleukin-27 (IL27) is a heterodimeric cytokine that contains Epstein-Barr virus–induced gene 3 (EBI3) and IL27p28 (IL27). It signals through a receptor composed of Interleukin-6 receptor subunit beta (IL6ST, gp130), which is utilized by many cytokines, and Interleukin-27 receptor subunit alpha (IL27RA, WSX-1, TCCR) (Yoshida & Hunter 2015)
R-HSA-9020958	Interleukin-21 signaling.	Interleukin-21 (IL21) is a pleiotropic cytokine with four alpha-helical bundles. It is produced primarily by natural killer T cells, T follicular helper cells and TH17 cells, with lower levels of production by numerous other populations of lymphohaematopoietic cells (Spolski & Leonard 2014). IL21 binds Interleukin-21 receptor (IL21R, NILR) and Cytokine receptor common subunit gamma (IL2RG, GammaC).IL21R has significant homology with the class I cytokine receptors Interleukin-2 receptor subunit beta (IL2RB) and Interleukin-4 receptor subunit alpha (IL4R) and was predicted to similarly form a complex with IL2RG. IL21R dimers can weakly bind and signal in response to IL21 but IL21 generates a much stronger response when IL21R is combined with IL2RG, which is required for a fully signaling capable IL21 receptor complex (Ozaki et al. 2000, Asao et al. 2001, Habib et al. 2002). IL21R can bind Janus kinase 1 (JAK1) (Ozaki et al. 2000) but IL2RG is required for IL21 induced signaling (Asao et al. 2001). The heteromeric IL21 receptor complex can activate JAK1, JAK3, Signal transducer and activator of transcription 1 (STAT1), STAT3, STAT4 and STAT5, depending on the cell type. In cultured T-cells IL21 induced phosphorylation of JAK1, JAK3, STAT1, STAT3 and weakly STAT5 (Asao et al. 2001). In primary CD4+ T cells IL21 induced the phosphorylation of STAT1 and STAT3 but not STAT5, whereas IL2 induced the phosphorylation of STAT5 and STAT1 but not STA3 (Bennet et al. 2003). IL21 stimulation of primary splenic B cells and the pro-B-cell line Ba-F3 induced the activation of JAK1, JAK3 and STAT5 (Habib et al. 2002). In primary human NK cells or the NK cell line NK-92, IL21 induced the activation of STAT1, STAT3, and STAT4 but not STAT5 (Strengell et al. 2002, 2003). IL21 activated STAT1 and STAT3 in human monocyte-derived macrophages (Vallières & Girard 2017)
R-HSA-909733	Interferon alpha/beta signaling.	Type I interferons (IFNs) are composed of various genes including IFN alpha (IFNA), beta (IFNB), omega, epsilon, and kappa. In humans the IFNA genes are composed of more than 13 subfamily genes, whereas there is only one IFNB gene. The large family of IFNA/B proteins all bind to a single receptor which is composed of two distinct chains: IFNAR1 and IFNAR2. The IFNA/B stimulation of the IFNA receptor complex leads to the formation of two transcriptional activator complexes: IFNA-activated-factor (AAF), which is a homodimer of STAT1 and IFN-stimulated gene factor 3 (ISGF3), which comprises STAT1, STAT2 and a member of the IRF family, IRF9/P48. AAF mediates activation of the IRF-1 gene by binding to GAS (IFNG-activated site), whereas ISGF3 activates several IFN-inducible genes including IRF3 and IRF7
R-HSA-912694	Regulation of IFNA signaling.	There are several proteins and mechanisms involved in controlling the extent of ligand stimulation of IFNA/B signaling. These mechanisms can effect every step of the IFNA/B cascade. Dephosphorylation of JAK and STAT by SHP protein phosphatases, inhibition of STAT function in the nucleus by protein inhibitors of activated STATs (PIAS) proteins, inhibition of tyrosine kinase activity of JAKs by SOCS as well as inhibition of JAK and IFNAR2 interaction by UBP43 are few of the negative regulation mechanisms in controling type I IFN signaling
R-HSA-982772	Growth hormone receptor signaling.	Growth hormone (Somatotropin or GH) is a key factor in determining lean body mass, stimulating the growth and metabolism of muscle, bone and cartilage cells, while reducing body fat. It has many other roles; it acts to regulate cell growth, differentiation, apoptosis, and reorganisation of the cytoskeleton, affecting diverse processes such as cardiac function, immune function, brain function, and aging. GH also has insulin-like effects such as stimulating amino acid transport, protein synthesis, glucose transport, and lipogenesis. The growth hormone receptor (GHR) is a a member of the cytokine receptor family. When the dimeric receptor binds GH it undergoes a conformational change which leads to phosphorylation of key tyrosine residues in its cytoplasmic domains and activation of associated tyrosine kinase JAK2. This leads to recruitment of signaling molecules such as STAT5 and Src family kinases such as Lyn leading to ERK activation. The signal is attenuated by association of Suppressor of Cytokine Signaling (SOCS) proteins and SHP phosphatases which bind to or dephosphorylate specific phosphorylated tyrosines on GHR/JAK. The availability of GHR on the cell surface is regulated by at least two processes; internalization and cleavage from the suface by metalloproteases

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Interacting partner	Detection method	Interaction type	PubMed IDs	Interaction Score	Source
ACTN4	Two-hybrid	physical	20936779, (Europe PMC)	NA	BioGRID
AHSA1	Co-fractionation	physical	26344197, (Europe PMC)	NA	BioGRID
APEH	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
ARRB2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	17620599, (Europe PMC)	0.35	BioGRID, IntAct
ATF3	Affinity Capture-Western, Reconstituted Complex	physical	19647793, (Europe PMC)	NA	BioGRID
ATG7	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
ATP6V1C1	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
BCL3	Affinity Capture-Western	physical	16306601, (Europe PMC)	NA	BioGRID
BPIFB3	Affinity Capture-MS, anti bait coimmunoprecipitation	physical, physical association	17353931, (Europe PMC)	0.40	BioGRID, IntAct
BRCA1	Affinity Capture-Western, Reconstituted Complex, Two-hybrid	physical	10792030, (Europe PMC)	NA	BioGRID
CAND1	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
CASP3	Biochemical Activity	physical	18723680, (Europe PMC)	NA	BioGRID
CASP7	Biochemical Activity	physical	18723680, (Europe PMC)	NA	BioGRID
CCDC8	Affinity Capture-MS	physical	24711643, (Europe PMC)	NA	BioGRID
CDH1	Proximity Label-MS	physical	25468996, (Europe PMC)	NA	BioGRID
CIAPIN1	Co-fractionation	physical	26344197, (Europe PMC)	NA	BioGRID
CREBBP	Affinity Capture-Western, Biochemical Activity, Phenotypic Enhancement, Reconstituted Complex	genetic, physical	15695802, 15894584, 16481475, 19915063, 25451029, 25733689, 8986769, 9037008, (Europe PMC)	NA	BioGRID
CTNNBL1	Affinity Capture-MS	physical	21385873, (Europe PMC)	NA	BioGRID
CTTN	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
DCTN1	Two-hybrid, two hybrid pooling approach	physical, physical association	20936779, (Europe PMC)	0.37	BioGRID, IntAct
DDB1	Affinity Capture-Western, Two-hybrid, pull down, two hybrid	physical, physical association	21988832, (Europe PMC)	0.51	BioGRID, IntAct
DOCK4	Affinity Capture-MS	physical	28514442, (Europe PMC)	NA	BioGRID
DOT1L	Affinity Capture-Western, Reconstituted Complex	physical	22002246, (Europe PMC)	NA	BioGRID
DTX3L	Affinity Capture-Western	physical	24886089, 26479788, (Europe PMC)	NA	BioGRID
E2F1	Reconstituted Complex, display technology, tandem affinity purification	physical, physical association	20195357, (Europe PMC)	0.52	BioGRID, IntAct
EGFR	Affinity Capture-Luminescence, Affinity Capture-MS, Affinity Capture-Western, PCA, Two-hybrid, anti tag coimmunoprecipitation, competition binding, electrophoretic mobility shift assay, luminescence based mammalian interactome mapping, ubiquitin reconstruction	association, physical, physical association	10358079, 12070153, 15284024, 23956138, 24658140, 24797263, 25402006, (Europe PMC)	0.71	BioGRID, IntAct, MINT
EIF1AD	Two-hybrid, two hybrid array, two hybrid pooling approach, two hybrid prey pooling approach, validated two hybrid	physical, physical association	16189514, 25416956, (Europe PMC)	0.67	BioGRID, IntAct
EIF2AK2	Affinity Capture-Western, Reconstituted Complex	physical	11278865, 9135145, (Europe PMC)	NA	BioGRID
ELP2	Reconstituted Complex	physical	10954736, (Europe PMC)	NA	BioGRID
EP300	Affinity Capture-Western, Co-localization	physical	10464260, 11134049, 11923478, 12403783, 15824515, 18566411, 19915063, 26479788, 26504087, (Europe PMC)	NA	BioGRID
ERBB2	Co-localization, Protein-peptide, protein array, proximity ligation assay	direct interaction, physical, physical association	16273093, 25241761, (Europe PMC)	0.61	BioGRID, IntAct, MINT
FANCC	Affinity Capture-Western, Reconstituted Complex, Two-hybrid	physical	10848598, 11520787, 14499622, (Europe PMC)	NA	BioGRID
FANCE	Affinity Capture-Western	physical	26277624, (Europe PMC)	NA	BioGRID
FOS	Co-localization, anti bait coimmunoprecipitation, proximity ligation assay	physical, physical association	12788789, 25241761, (Europe PMC)	0.59	BioGRID, IntAct
FOXA3	Affinity Capture-MS, tandem affinity purification	association, physical	25609649, (Europe PMC)	0.35	BioGRID, IntAct, MINT
G3BP1	Affinity Capture-MS	physical	26777405, (Europe PMC)	NA	BioGRID
GFAP	Two-hybrid, two hybrid pooling approach	physical, physical association	20936779, (Europe PMC)	0.37	BioGRID, IntAct
GNB2	Affinity Capture-Western	physical	23326349, (Europe PMC)	NA	BioGRID
GSPT2	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
GTF2I	Reconstituted Complex	physical	9584171, (Europe PMC)	NA	BioGRID
HADH	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
HDAC1	Affinity Capture-Western	physical	16481475, (Europe PMC)	NA	BioGRID
HDAC3	Affinity Capture-Western	physical	16481475, (Europe PMC)	NA	BioGRID
HDAC4	Affinity Capture-Western	physical	21571862, (Europe PMC)	NA	BioGRID
HIRIP3	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
HIST1H2BJ	Affinity Capture-Western	physical	26479788, (Europe PMC)	NA	BioGRID
HIST2H3C	Affinity Capture-Western	physical	21689637, (Europe PMC)	NA	BioGRID
HLA-B	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
HLA-DRB5	Affinity Capture-MS	physical	26186194, (Europe PMC)	NA	BioGRID
HSF1	Affinity Capture-Western	physical	9880553, (Europe PMC)	NA	BioGRID
HSP90AB1	Two-hybrid, two hybrid pooling approach	physical, physical association	20936779, (Europe PMC)	0.37	BioGRID, IntAct
HSP90B1	Affinity Capture-Western	physical	18662321, (Europe PMC)	NA	BioGRID
HSPA4L	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
HUWE1	Affinity Capture-MS	physical	25147182, (Europe PMC)	NA	BioGRID
IDE	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
IFNAR2	Reconstituted Complex, pull down	association, physical, physical association	11301323, 9121453, (Europe PMC)	0.50	BioGRID, IntAct, MINT
IFNGR1	Affinity Capture-Western, Co-localization	physical	10848598, 21689637, (Europe PMC)	NA	BioGRID
IGBP1	Affinity Capture-Western, Co-fractionation	physical	19553685, (Europe PMC)	NA	BioGRID
IL27RA	Affinity Capture-Western, Reconstituted Complex	physical	12734330, (Europe PMC)	NA	BioGRID
IL2RB	Reconstituted Complex	physical	10602027, (Europe PMC)	NA	BioGRID
IRAK1	Affinity Capture-Western	physical	12856330, (Europe PMC)	NA	BioGRID
IRF1	Affinity Capture-Western, Reconstituted Complex	physical	10764778, 16512786, (Europe PMC)	NA	BioGRID
IRF9	Reconstituted Complex, Two-hybrid, anti bait coimmunoprecipitation, cross-linking study	association, physical	17923090, 24065129, 8943351, (Europe PMC)	0.53	BioGRID, IntAct, MINT
ISG15	Affinity Capture-MS	physical	16009940, (Europe PMC)	NA	BioGRID
ITGAV	Affinity Capture-Western	physical	23640055, (Europe PMC)	NA	BioGRID
JAK1	Affinity Capture-Western	physical	14978237, 15284024, (Europe PMC)	NA	BioGRID
JAK2	Affinity Capture-Western, Co-localization, protein kinase assay	phosphorylation reaction, physical	14978237, 15284024, 19834108, 20353823, 24255956, (Europe PMC)	0.44	BioGRID, IntAct, MINT
JMJD6	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
JUN	Affinity Capture-Western	physical	10490649, (Europe PMC)	NA	BioGRID
KARS	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
KIT	Affinity Capture-Western, Biochemical Activity, Co-localization, Reconstituted Complex, proximity ligation assay	physical, physical association	25241761, 9355737, (Europe PMC)	0.40	BioGRID, IntAct
KPNA1	Reconstituted Complex, pull down	association, physical	10964507, 12048190, 26966684, (Europe PMC)	0.35	BioGRID, IntAct, MINT
LMO2	Two-hybrid, two hybrid pooling approach	physical, physical association	16189514, 25416956, (Europe PMC)	0.37	BioGRID, IntAct
LZTR1	Two-hybrid	physical	20211142, (Europe PMC)	NA	BioGRID
MAVS	Affinity Capture-MS, Reconstituted Complex, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation	association, physical, physical association	21903422, (Europe PMC)	0.58	BioGRID, IntAct
MBD1	Affinity Capture-Western	physical	19074829, (Europe PMC)	NA	BioGRID
MCM5	Affinity Capture-Western, Reconstituted Complex	physical	11248027, 9843502, (Europe PMC)	NA	BioGRID
MLST8	Co-fractionation	physical	19553685, (Europe PMC)	NA	BioGRID
MTOR	Affinity Capture-Western, Co-fractionation, Co-localization, proximity ligation assay	physical, physical association	12807916, 19553685, 25241761, (Europe PMC)	0.40	BioGRID, IntAct
NAA10	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
NAA15	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
ND4L	Two-hybrid	physical	21988832, (Europe PMC)	NA	BioGRID
NFKBIA	Affinity Capture-Western	physical	16481475, (Europe PMC)	NA	BioGRID
NMD3	Co-fractionation	physical	22939629, (Europe PMC)	NA	BioGRID
NMI	Reconstituted Complex, pull down	physical, physical association	9989503, (Europe PMC)	0.40	BioGRID, IntAct
NOMO1	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
NOMO2	Two-hybrid	physical	21988832, (Europe PMC)	NA	BioGRID
NR1H2	Affinity Capture-Western	physical	27485016, (Europe PMC)	NA	BioGRID
NR1H3	Affinity Capture-MS, Affinity Capture-Western	physical	27485016, (Europe PMC)	NA	BioGRID
NSF	Co-fractionation	physical	22939629, (Europe PMC)	NA	BioGRID
NTRK1	Affinity Capture-MS	physical	25921289, (Europe PMC)	NA	BioGRID
OTUD4	Two-hybrid, two hybrid array, two hybrid prey pooling approach, validated two hybrid	physical, physical association	25416956, (Europe PMC)	0.56	BioGRID, IntAct
PAK2	Co-fractionation	physical	26344197, (Europe PMC)	NA	BioGRID
PARP9	Affinity Capture-Western	physical	26479788, (Europe PMC)	NA	BioGRID
PAWR	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
PDGFRA	Co-localization, proximity ligation assay	physical, physical association	25241761, (Europe PMC)	0.40	BioGRID, IntAct
PHGDH	Co-fractionation	physical	22939629, (Europe PMC)	NA	BioGRID
PIAS1	Affinity Capture-Western, Co-localization, Reconstituted Complex, Two-hybrid, proximity ligation assay	physical, physical association	10805787, 11257227, 12171910, 17371985, 18566411, 25241761, 9724754, (Europe PMC)	0.40	BioGRID, IntAct
PIK3CA	Biochemical Activity	physical	11438544, (Europe PMC)	NA	BioGRID
PML	Affinity Capture-Western	physical	25733689, 25812002, (Europe PMC)	NA	BioGRID
POR	Two-hybrid	physical	21988832, (Europe PMC)	NA	BioGRID
PPARA	Affinity Capture-Western	physical	26504087, (Europe PMC)	NA	BioGRID
PPARD	Affinity Capture-Western	physical	26504087, (Europe PMC)	NA	BioGRID
PPARG	Affinity Capture-Western, Co-localization	physical	26504087, (Europe PMC)	NA	BioGRID
PRKCD	Affinity Capture-Western, Biochemical Activity, Co-fractionation	physical	11839738, 12807916, 12817007, 15322115, 19553685, (Europe PMC)	NA	BioGRID
PRKCE	Affinity Capture-Western	physical	20353823, (Europe PMC)	NA	BioGRID
PRMT1	Affinity Capture-Western, Biochemical Activity	physical	11257227, (Europe PMC)	NA	BioGRID
PRMT3	Biochemical Activity	physical	11257227, (Europe PMC)	NA	BioGRID
PSMC3	Affinity Capture-Western	physical	19853614, (Europe PMC)	NA	BioGRID
PTK2	Affinity Capture-Western, Co-localization, Reconstituted Complex, proximity ligation assay	physical, physical association	11278462, 20576130, 25241761, (Europe PMC)	0.40	BioGRID, IntAct
PTPA	Affinity Capture-Western, Co-fractionation	physical	19553685, (Europe PMC)	NA	BioGRID
PTPN11	Two-hybrid	physical	27229929, (Europe PMC)	NA	BioGRID
PTPN2	Affinity Capture-Western	physical	12171910, 19171783, (Europe PMC)	NA	BioGRID
RACK1	Affinity Capture-Western, Reconstituted Complex	physical	11301323, 12960323, (Europe PMC)	NA	BioGRID
RELA	Co-localization, proximity ligation assay	physical, physical association	25241761, (Europe PMC)	0.40	BioGRID, IntAct
RNF11	Affinity Capture-Western	physical	19131965, (Europe PMC)	NA	BioGRID
RPS6KB1	Co-fractionation	physical	19553685, (Europe PMC)	NA	BioGRID
RTF1	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
RXRA	Affinity Capture-Western, Two-hybrid, pull down, two hybrid	physical, physical association	21988832, (Europe PMC)	0.51	BioGRID, IntAct
SARS	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
SHANK1	Two-hybrid, two hybrid pooling approach	physical, physical association	20936779, (Europe PMC)	0.37	BioGRID, IntAct
SHMT1	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
SHMT2	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
SMARCA2	Affinity Capture-Western	physical	21079652, (Europe PMC)	NA	BioGRID
SMARCA4	Affinity Capture-Western, Co-localization	physical	16195385, 20353823, 21079652, (Europe PMC)	NA	BioGRID
SMURF1	Affinity Capture-Western	physical	22474288, (Europe PMC)	NA	BioGRID
SNX1	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
SNX2	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
SNX6	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
SPACA1	Affinity Capture-MS	physical	26186194, (Europe PMC)	NA	BioGRID
SPTAN1	Two-hybrid, pull down, two hybrid pooling approach	association, physical, physical association	20936779, 26966684, (Europe PMC)	0.55	BioGRID, IntAct, MINT
SPTB	Two-hybrid, two hybrid array, validated two hybrid	physical, physical association	25814554, (Europe PMC)	0.49	BioGRID, IntAct
SPTBN1	Two-hybrid, two hybrid pooling approach	physical, physical association	20936779, (Europe PMC)	0.37	BioGRID, IntAct
SRC	Affinity Capture-Western	physical	10358079, 14978237, 9344858, (Europe PMC)	NA	BioGRID
STAT1	Affinity Capture-Western, Co-crystal Structure, Co-purification, Reconstituted Complex, Two-hybrid, coimmunoprecipitation, competition binding, cosedimentation in solution, cross-linking study, dynamic light scattering, molecular sieving, pull down, x-ray crystallography	association, direct interaction, physical	15284440, 16007122, 18591661, 21914072, 8605877, 8621447, 9630226, (Europe PMC)	0.62, 0.64, 0.65	BioGRID, IntAct, MINT
STAT2	Affinity Capture-MS, Affinity Capture-Western, Co-localization, Co-purification, Reconstituted Complex, anti bait coimmunoprecipitation, coimmunoprecipitation, competition binding, cross-linking study, pull down	association, physical, physical association	10446176, 10490982, 12048190, 15825084, 17923090, 24065129, 26966684, 28514442, 8605877, 8621447, 9724754, (Europe PMC)	0.86	BioGRID, IntAct, MINT
STAT3	Affinity Capture-MS, Affinity Capture-Western, Co-localization, Reconstituted Complex	physical	11594781, 11722592, 12070153, 16007122, 25241761, 25609649, 28514442, (Europe PMC)	NA	BioGRID
STAT4	Reconstituted Complex	physical	21826217, (Europe PMC)	NA	BioGRID
STAT5A	Co-localization, proximity ligation assay	physical, physical association	25241761, (Europe PMC)	0.40	BioGRID, IntAct
TBCD	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
TES	Affinity Capture-MS	physical	28378594, (Europe PMC)	NA	BioGRID
TEX264	Affinity Capture-MS	physical	26186194, (Europe PMC)	NA	BioGRID
TNFRSF1A	Affinity Capture-Western	physical	10848577, (Europe PMC)	NA	BioGRID
TNK2	Affinity Capture-Western	physical	28739485, (Europe PMC)	NA	BioGRID
TRADD	Affinity Capture-Western, Reconstituted Complex	physical	10848577, (Europe PMC)	NA	BioGRID
TRIM28	Affinity Capture-Western	physical	18037959, 18381204, (Europe PMC)	NA	BioGRID
TSNAX	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
TYK2	Biochemical Activity	physical	12960323, (Europe PMC)	NA	BioGRID
U2AF2	Affinity Capture-MS	physical	26641092, (Europe PMC)	NA	BioGRID
UBE2I	Biochemical Activity	physical	14517261, (Europe PMC)	NA	BioGRID
USP13	Affinity Capture-Western	physical	23940278, (Europe PMC)	NA	BioGRID
USP2	Affinity Capture-Western	physical	27434509, (Europe PMC)	NA	BioGRID
VCP	Affinity Capture-MS	physical	23383273, (Europe PMC)	NA	BioGRID
VDR	Affinity Capture-Western, Reconstituted Complex	physical	11909970, (Europe PMC)	NA	BioGRID
VPS26A	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
VPS29	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
XPO1	Affinity Capture-MS, Protein-peptide	physical	22833565, 26673895, (Europe PMC)	NA	BioGRID
YAP1	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID

Visualize Download

Interacting partner	Detection method	Interaction type	PubMed IDs	Interaction Score	Source
ACTN4	two hybrid pooling approach	physical association	20936779, (Europe PMC)	0.37	IntAct
ARRB2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	17620599, (Europe PMC)	0.35	BioGRID, IntAct
BPIFB3	Affinity Capture-MS, anti bait coimmunoprecipitation	physical, physical association	17353931, (Europe PMC)	0.40	BioGRID, IntAct
CANX	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
CAPRIN1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
CHCHD3	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
CNOT7	anti bait coimmunoprecipitation, imaging technique	colocalization, physical association	23386060, (Europe PMC)	0.46	IntAct, MINT
DCTN1	Two-hybrid, two hybrid pooling approach	physical, physical association	20936779, (Europe PMC)	0.37	BioGRID, IntAct
DDB1	Affinity Capture-Western, Two-hybrid, pull down, two hybrid	physical, physical association	21988832, (Europe PMC)	0.51	BioGRID, IntAct
DDX58	anti bait coimmunoprecipitation	physical association	24360797, (Europe PMC)	0.40	IntAct
DES	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
DNAJA3	anti bait coimmunoprecipitation	physical association	21106534, (Europe PMC)	0.40	IntAct
E2F1	Reconstituted Complex, display technology, tandem affinity purification	physical, physical association	20195357, (Europe PMC)	0.52	BioGRID, IntAct
EBI-10096065	electrophoretic mobility supershift assay	physical association	12788789, (Europe PMC)	0.40	IntAct
EBI-10096068	electrophoretic mobility supershift assay	physical association	12788789, (Europe PMC)	0.40	IntAct
EBI-10096074	electrophoretic mobility supershift assay	physical association	12788789, (Europe PMC)	0.40	IntAct
EBI-10097344	pull down	physical association	19124747, (Europe PMC)	0.40	IntAct
EBI-10097347	pull down	physical association	19124747, (Europe PMC)	0.40	IntAct
EBI-10178797	two hybrid array, two hybrid prey pooling approach, validated two hybrid	physical association	25416956, (Europe PMC)	0.56	IntAct
EBI-9825772	electrophoretic mobility supershift assay	association, physical association	8662591, (Europe PMC)	0.50	IntAct, MINT
EBI-9973887	electrophoretic mobility supershift assay	physical association	19046253, (Europe PMC)	0.40	IntAct
EGFR	Affinity Capture-Luminescence, Affinity Capture-MS, Affinity Capture-Western, PCA, Two-hybrid, anti tag coimmunoprecipitation, competition binding, electrophoretic mobility shift assay, luminescence based mammalian interactome mapping, ubiquitin reconstruction	association, physical, physical association	10358079, 12070153, 15284024, 23956138, 24658140, 24797263, 25402006, (Europe PMC)	0.71	BioGRID, IntAct, MINT
EIF1AD	Two-hybrid, two hybrid array, two hybrid pooling approach, two hybrid prey pooling approach, validated two hybrid	physical, physical association	16189514, 25416956, (Europe PMC)	0.67	BioGRID, IntAct
ENSG00000006210	chromatin immunoprecipitation assay	association	25040843, (Europe PMC)	0.35	IntAct
ENSG00000049768	chromatin immunoprecipitation assay, enzyme linked immunosorbent assay	association, physical association	19124747, (Europe PMC)	0.50	IntAct
ENSG00000099956	chromatin immunoprecipitation assay	association	18267069, (Europe PMC)	0.35	IntAct
ENSG00000102524	chromatin immunoprecipitation assay	association	23271704, (Europe PMC)	0.35	IntAct
ENSG00000125347	chromatin immunoprecipitation assay, electrophoretic mobility shift assay	association, physical association	17525742, 19124747, 8810328, (Europe PMC)	0.67	IntAct
ENSG00000129521	chromatin immunoprecipitation assay	association	19574556, (Europe PMC)	0.35	IntAct
ENSG00000137496	chromatin immunoprecipitation assay	association	19046253, (Europe PMC)	0.35	IntAct
ENSG00000140279	chromatin immunoprecipitation assay	association	21321110, (Europe PMC)	0.35	IntAct
ENSG00000145113	chromatin immunoprecipitation assay	association	17525742, (Europe PMC)	0.35	IntAct
ENSG00000160182	chromatin immunoprecipitation assay	association	25303530, (Europe PMC)	0.35	IntAct
ENSG00000171132	chromatin immunoprecipitation assay	association	24825907, (Europe PMC)	0.35	IntAct
ENSG00000196208	chromatin immunoprecipitation assay	association	25303530, (Europe PMC)	0.35	IntAct
ENSG00000255346	chromatin immunoprecipitation assay	association	22348975, (Europe PMC)	0.35	IntAct
ERBB2	Co-localization, Protein-peptide, protein array, proximity ligation assay	direct interaction, physical, physical association	16273093, 25241761, (Europe PMC)	0.61	BioGRID, IntAct, MINT
ERP44	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
ESR1	anti tag coimmunoprecipitation	association	25303530, (Europe PMC)	0.35	IntAct
ETFB	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
FARSB	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
FOS	Co-localization, anti bait coimmunoprecipitation, proximity ligation assay	physical, physical association	12788789, 25241761, (Europe PMC)	0.59	BioGRID, IntAct
FOXA3	Affinity Capture-MS, tandem affinity purification	association, physical	25609649, (Europe PMC)	0.35	BioGRID, IntAct, MINT
GATA3	chromatin immunoprecipitation assay	association	25303530, (Europe PMC)	0.35	IntAct
GFAP	Two-hybrid, two hybrid pooling approach	physical, physical association	20936779, (Europe PMC)	0.37	BioGRID, IntAct
GLO1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
GSTK1	anti bait coimmunoprecipitation	physical association	17353931, (Europe PMC)	0.40	IntAct
HADH	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
HLA-B	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
HSCB	anti bait coimmunoprecipitation	association	28380382, (Europe PMC)	0.35	IntAct
HSD17B4	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
HSP90AB1	Two-hybrid, two hybrid pooling approach	physical, physical association	20936779, (Europe PMC)	0.37	BioGRID, IntAct
IFNAR1	pull down	association, physical association	9121453, (Europe PMC)	0.50	IntAct, MINT
IFNAR2	Reconstituted Complex, pull down	association, physical, physical association	11301323, 9121453, (Europe PMC)	0.50	BioGRID, IntAct, MINT
IFNGR1	coimmunoprecipitation, competition binding, x-ray crystallography	association	15780933, 8156998, 8662591, (Europe PMC)	0.69	IntAct, MINT
IL6ST	competition binding	association	8662591, (Europe PMC)	0.35	IntAct, MINT
INA	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
IRF9	Reconstituted Complex, Two-hybrid, anti bait coimmunoprecipitation, cross-linking study	association, physical	17923090, 24065129, 8943351, (Europe PMC)	0.53	BioGRID, IntAct, MINT
JAK2	Affinity Capture-Western, Co-localization, protein kinase assay	phosphorylation reaction, physical	14978237, 15284024, 19834108, 20353823, 24255956, (Europe PMC)	0.44	BioGRID, IntAct, MINT
KDM3A	anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, pull down	physical association	25535969, (Europe PMC)	0.59	IntAct
KIT	Affinity Capture-Western, Biochemical Activity, Co-localization, Reconstituted Complex, proximity ligation assay	physical, physical association	25241761, 9355737, (Europe PMC)	0.40	BioGRID, IntAct
KPNA1	Reconstituted Complex, pull down	association, physical	10964507, 12048190, 26966684, (Europe PMC)	0.35	BioGRID, IntAct, MINT
KPNA6	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
LDHB	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
LMO2	Two-hybrid, two hybrid pooling approach	physical, physical association	16189514, 25416956, (Europe PMC)	0.37	BioGRID, IntAct
MAVS	Affinity Capture-MS, Reconstituted Complex, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation	association, physical, physical association	21903422, (Europe PMC)	0.58	BioGRID, IntAct
MT-ND4L	two hybrid	physical association	21988832, (Europe PMC)	0.37	IntAct
MTOR	Affinity Capture-Western, Co-fractionation, Co-localization, proximity ligation assay	physical, physical association	12807916, 19553685, 25241761, (Europe PMC)	0.40	BioGRID, IntAct
NDUFS3	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
NMI	Reconstituted Complex, pull down	physical, physical association	9989503, (Europe PMC)	0.40	BioGRID, IntAct
NOMO1	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
NOMO3	two hybrid	physical association	21988832, (Europe PMC)	0.37	IntAct
OTUD4	Two-hybrid, two hybrid array, two hybrid prey pooling approach, validated two hybrid	physical, physical association	25416956, (Europe PMC)	0.56	BioGRID, IntAct
PABPC3	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
PDGFRA	Co-localization, proximity ligation assay	physical, physical association	25241761, (Europe PMC)	0.40	BioGRID, IntAct
PDGFRB	proximity ligation assay	physical association	23397142, (Europe PMC)	0.40	IntAct
PFKL	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
PGD	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
PIAS1	Affinity Capture-Western, Co-localization, Reconstituted Complex, Two-hybrid, proximity ligation assay	physical, physical association	10805787, 11257227, 12171910, 17371985, 18566411, 25241761, 9724754, (Europe PMC)	0.40	BioGRID, IntAct
PLEC	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
POR	two hybrid	physical association	21988832, (Europe PMC)	0.37	IntAct
PTBP2	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
PTK2	Affinity Capture-Western, Co-localization, Reconstituted Complex, proximity ligation assay	physical, physical association	11278462, 20576130, 25241761, (Europe PMC)	0.40	BioGRID, IntAct
PTP4A3	anti bait coimmunoprecipitation	physical association	17353931, (Europe PMC)	0.40	IntAct
PYGL	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
RARA	anti tag coimmunoprecipitation, chromatin immunoprecipitation assay, pull down	association	25303530, (Europe PMC)	0.53	IntAct
RELA	Co-localization, proximity ligation assay	physical, physical association	25241761, (Europe PMC)	0.40	BioGRID, IntAct
RXRA	Affinity Capture-Western, Two-hybrid, pull down, two hybrid	physical, physical association	21988832, (Europe PMC)	0.51	BioGRID, IntAct
SHANK1	Two-hybrid, two hybrid pooling approach	physical, physical association	20936779, (Europe PMC)	0.37	BioGRID, IntAct
SPTAN1	Two-hybrid, pull down, two hybrid pooling approach	association, physical, physical association	20936779, 26966684, (Europe PMC)	0.55	BioGRID, IntAct, MINT
SPTB	Two-hybrid, two hybrid array, validated two hybrid	physical, physical association	25814554, (Europe PMC)	0.49	BioGRID, IntAct
SPTBN1	Two-hybrid, two hybrid pooling approach	physical, physical association	20936779, (Europe PMC)	0.37	BioGRID, IntAct
STAT1	Affinity Capture-Western, Co-crystal Structure, Co-purification, Reconstituted Complex, Two-hybrid, coimmunoprecipitation, competition binding, cosedimentation in solution, cross-linking study, dynamic light scattering, molecular sieving, pull down, x-ray crystallography	association, direct interaction, physical	15284440, 16007122, 18591661, 21914072, 8605877, 8621447, 9630226, (Europe PMC)	0.62, 0.64, 0.65	BioGRID, IntAct, MINT
STAT2	Affinity Capture-MS, Affinity Capture-Western, Co-localization, Co-purification, Reconstituted Complex, anti bait coimmunoprecipitation, coimmunoprecipitation, competition binding, cross-linking study, pull down	association, physical, physical association	10446176, 10490982, 12048190, 15825084, 17923090, 24065129, 26966684, 28514442, 8605877, 8621447, 9724754, (Europe PMC)	0.86	BioGRID, IntAct, MINT
STAT3	competition binding, proximity ligation assay, pull down, tandem affinity purification	association, physical association	25241761, 25609649, 26966684, 8662591, (Europe PMC)	0.74	IntAct, MINT
STAT5A	Co-localization, proximity ligation assay	physical, physical association	25241761, (Europe PMC)	0.40	BioGRID, IntAct
STK4	tandem affinity purification	association	23386615, (Europe PMC)	0.35	IntAct
STMN1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
TBCA	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
UBE2F	anti bait coimmunoprecipitation	physical association	17353931, (Europe PMC)	0.40	IntAct
UBE2M	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
UCHL1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
UQCRC1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT

Visualize Download

Interacting partner	Detection method	Interaction type	PubMed IDs	Interaction Score	Source
CANX	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
CAPRIN1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
CHCHD3	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
CNOT7	anti bait coimmunoprecipitation, imaging technique	colocalization, physical association	23386060, (Europe PMC)	0.46	IntAct, MINT
DES	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
EBI-9825772	electrophoretic mobility supershift assay	association, physical association	8662591, (Europe PMC)	0.50	IntAct, MINT
EGFR	Affinity Capture-Luminescence, Affinity Capture-MS, Affinity Capture-Western, PCA, Two-hybrid, anti tag coimmunoprecipitation, competition binding, electrophoretic mobility shift assay, luminescence based mammalian interactome mapping, ubiquitin reconstruction	association, physical, physical association	10358079, 12070153, 15284024, 23956138, 24658140, 24797263, 25402006, (Europe PMC)	0.71	BioGRID, IntAct, MINT
ERBB2	Co-localization, Protein-peptide, protein array, proximity ligation assay	direct interaction, physical, physical association	16273093, 25241761, (Europe PMC)	0.61	BioGRID, IntAct, MINT
ERP44	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
ETFB	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
FARSB	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
FOXA3	Affinity Capture-MS, tandem affinity purification	association, physical	25609649, (Europe PMC)	0.35	BioGRID, IntAct, MINT
GLO1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
HSD17B4	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
IFNAR1	pull down	association, physical association	9121453, (Europe PMC)	0.50	IntAct, MINT
IFNAR2	Reconstituted Complex, pull down	association, physical, physical association	11301323, 9121453, (Europe PMC)	0.50	BioGRID, IntAct, MINT
IFNGR1	coimmunoprecipitation, competition binding, x-ray crystallography	association	15780933, 8156998, 8662591, (Europe PMC)	0.69	IntAct, MINT
IL6ST	competition binding	association	8662591, (Europe PMC)	0.35	IntAct, MINT
INA	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
IRF9	Reconstituted Complex, Two-hybrid, anti bait coimmunoprecipitation, cross-linking study	association, physical	17923090, 24065129, 8943351, (Europe PMC)	0.53	BioGRID, IntAct, MINT
JAK2	Affinity Capture-Western, Co-localization, protein kinase assay	phosphorylation reaction, physical	14978237, 15284024, 19834108, 20353823, 24255956, (Europe PMC)	0.44	BioGRID, IntAct, MINT
KPNA1	Reconstituted Complex, pull down	association, physical	10964507, 12048190, 26966684, (Europe PMC)	0.35	BioGRID, IntAct, MINT
KPNA6	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
LDHB	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
NDUFS3	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
PABPC3	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
PFKL	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
PGD	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
PLEC	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
PTBP2	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
PYGL	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
SPTAN1	Two-hybrid, pull down, two hybrid pooling approach	association, physical, physical association	20936779, 26966684, (Europe PMC)	0.55	BioGRID, IntAct, MINT
STAT1	Affinity Capture-Western, Co-crystal Structure, Co-purification, Reconstituted Complex, Two-hybrid, coimmunoprecipitation, competition binding, cosedimentation in solution, cross-linking study, dynamic light scattering, molecular sieving, pull down, x-ray crystallography	association, direct interaction, physical	15284440, 16007122, 18591661, 21914072, 8605877, 8621447, 9630226, (Europe PMC)	0.62, 0.64, 0.65	BioGRID, IntAct, MINT
STAT2	Affinity Capture-MS, Affinity Capture-Western, Co-localization, Co-purification, Reconstituted Complex, anti bait coimmunoprecipitation, coimmunoprecipitation, competition binding, cross-linking study, pull down	association, physical, physical association	10446176, 10490982, 12048190, 15825084, 17923090, 24065129, 26966684, 28514442, 8605877, 8621447, 9724754, (Europe PMC)	0.86	BioGRID, IntAct, MINT
STAT3	competition binding, proximity ligation assay, pull down, tandem affinity purification	association, physical association	25241761, 25609649, 26966684, 8662591, (Europe PMC)	0.74	IntAct, MINT
STMN1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
TBCA	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
UBE2M	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
UCHL1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
UQCRC1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT

Visualize Download

Interacting partner	Detection method	Interaction type	PubMed IDs	Interaction Score	Source
ACTG1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
ACTN4	Two-hybrid	physical	20936779, (Europe PMC)	NA	BioGRID
ACTN4	two hybrid pooling approach	physical association	20936779, (Europe PMC)	0.37	IntAct
AHSA1	Co-fractionation	physical	26344197, (Europe PMC)	NA	BioGRID
APEH	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
ARRB2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	17620599, (Europe PMC)	0.35	BioGRID, IntAct
ATF3	Affinity Capture-Western, Reconstituted Complex	physical	19647793, (Europe PMC)	NA	BioGRID
ATG7	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
ATP6V1C1	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
BCL3	Affinity Capture-Western	physical	16306601, (Europe PMC)	NA	BioGRID
BPIFB3	Affinity Capture-MS, anti bait coimmunoprecipitation	physical, physical association	17353931, (Europe PMC)	0.40	BioGRID, IntAct
BRCA1	Affinity Capture-Western, Reconstituted Complex, Two-hybrid	physical	10792030, (Europe PMC)	NA	BioGRID
CAND1	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
CANX	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
CAPRIN1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
CASP3	Biochemical Activity	physical	18723680, (Europe PMC)	NA	BioGRID
CASP7	Biochemical Activity	physical	18723680, (Europe PMC)	NA	BioGRID
CCDC8	Affinity Capture-MS	physical	24711643, (Europe PMC)	NA	BioGRID
CDH1	Proximity Label-MS	physical	25468996, (Europe PMC)	NA	BioGRID
CHCHD3	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
CIAPIN1	Co-fractionation	physical	26344197, (Europe PMC)	NA	BioGRID
CNOT7	anti bait coimmunoprecipitation, imaging technique	colocalization, physical association	23386060, (Europe PMC)	0.46	IntAct, MINT
CREBBP	Affinity Capture-Western, Biochemical Activity, Phenotypic Enhancement, Reconstituted Complex	genetic, physical	15695802, 15894584, 16481475, 19915063, 25451029, 25733689, 8986769, 9037008, (Europe PMC)	NA	BioGRID
CTNNBL1	Affinity Capture-MS	physical	21385873, (Europe PMC)	NA	BioGRID
CTTN	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
DCTN1	Two-hybrid, two hybrid pooling approach	physical, physical association	20936779, (Europe PMC)	0.37	BioGRID, IntAct
DDB1	Affinity Capture-Western, Two-hybrid, pull down, two hybrid	physical, physical association	21988832, (Europe PMC)	0.51	BioGRID, IntAct
DDX58	anti bait coimmunoprecipitation	physical association	24360797, (Europe PMC)	0.40	IntAct
DES	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
DNAJA3	anti bait coimmunoprecipitation	physical association	21106534, (Europe PMC)	0.40	IntAct
DOCK4	Affinity Capture-MS	physical	28514442, (Europe PMC)	NA	BioGRID
DOT1L	Affinity Capture-Western, Reconstituted Complex	physical	22002246, (Europe PMC)	NA	BioGRID
DTX3L	Affinity Capture-Western	physical	24886089, 26479788, (Europe PMC)	NA	BioGRID
E2F1	Reconstituted Complex, display technology, tandem affinity purification	physical, physical association	20195357, (Europe PMC)	0.52	BioGRID, IntAct
EBI-10096065	electrophoretic mobility supershift assay	physical association	12788789, (Europe PMC)	0.40	IntAct
EBI-10096068	electrophoretic mobility supershift assay	physical association	12788789, (Europe PMC)	0.40	IntAct
EBI-10096074	electrophoretic mobility supershift assay	physical association	12788789, (Europe PMC)	0.40	IntAct
EBI-10097344	pull down	physical association	19124747, (Europe PMC)	0.40	IntAct
EBI-10097347	pull down	physical association	19124747, (Europe PMC)	0.40	IntAct
EBI-10178797	two hybrid array, two hybrid prey pooling approach, validated two hybrid	physical association	25416956, (Europe PMC)	0.56	IntAct
EBI-9825772	electrophoretic mobility supershift assay	association, physical association	8662591, (Europe PMC)	0.50	IntAct, MINT
EBI-9973887	electrophoretic mobility supershift assay	physical association	19046253, (Europe PMC)	0.40	IntAct
EGFR	Affinity Capture-Luminescence, Affinity Capture-MS, Affinity Capture-Western, PCA, Two-hybrid, anti tag coimmunoprecipitation, competition binding, electrophoretic mobility shift assay, luminescence based mammalian interactome mapping, ubiquitin reconstruction	association, physical, physical association	10358079, 12070153, 15284024, 23956138, 24658140, 24797263, 25402006, (Europe PMC)	0.71	BioGRID, IntAct, MINT
EIF1AD	Two-hybrid, two hybrid array, two hybrid pooling approach, two hybrid prey pooling approach, validated two hybrid	physical, physical association	16189514, 25416956, (Europe PMC)	0.67	BioGRID, IntAct
EIF2AK2	Affinity Capture-Western, Reconstituted Complex	physical	11278865, 9135145, (Europe PMC)	NA	BioGRID
ELP2	Reconstituted Complex	physical	10954736, (Europe PMC)	NA	BioGRID
ENSG00000006210	chromatin immunoprecipitation assay	association	25040843, (Europe PMC)	0.35	IntAct
ENSG00000049768	chromatin immunoprecipitation assay, enzyme linked immunosorbent assay	association, physical association	19124747, (Europe PMC)	0.50	IntAct
ENSG00000099956	chromatin immunoprecipitation assay	association	18267069, (Europe PMC)	0.35	IntAct
ENSG00000102524	chromatin immunoprecipitation assay	association	23271704, (Europe PMC)	0.35	IntAct
ENSG00000125347	chromatin immunoprecipitation assay, electrophoretic mobility shift assay	association, physical association	17525742, 19124747, 8810328, (Europe PMC)	0.67	IntAct
ENSG00000129521	chromatin immunoprecipitation assay	association	19574556, (Europe PMC)	0.35	IntAct
ENSG00000137496	chromatin immunoprecipitation assay	association	19046253, (Europe PMC)	0.35	IntAct
ENSG00000140279	chromatin immunoprecipitation assay	association	21321110, (Europe PMC)	0.35	IntAct
ENSG00000145113	chromatin immunoprecipitation assay	association	17525742, (Europe PMC)	0.35	IntAct
ENSG00000160182	chromatin immunoprecipitation assay	association	25303530, (Europe PMC)	0.35	IntAct
ENSG00000171132	chromatin immunoprecipitation assay	association	24825907, (Europe PMC)	0.35	IntAct
ENSG00000196208	chromatin immunoprecipitation assay	association	25303530, (Europe PMC)	0.35	IntAct
ENSG00000255346	chromatin immunoprecipitation assay	association	22348975, (Europe PMC)	0.35	IntAct
EP300	Affinity Capture-Western, Co-localization	physical	10464260, 11134049, 11923478, 12403783, 15824515, 18566411, 19915063, 26479788, 26504087, (Europe PMC)	NA	BioGRID
ERBB2	Co-localization, Protein-peptide, protein array, proximity ligation assay	direct interaction, physical, physical association	16273093, 25241761, (Europe PMC)	0.61	BioGRID, IntAct, MINT
ERP44	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
ESR1	anti tag coimmunoprecipitation	association	25303530, (Europe PMC)	0.35	IntAct
ETFB	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
FANCC	Affinity Capture-Western, Reconstituted Complex, Two-hybrid	physical	10848598, 11520787, 14499622, (Europe PMC)	NA	BioGRID
FANCE	Affinity Capture-Western	physical	26277624, (Europe PMC)	NA	BioGRID
FARSB	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
FOS	Co-localization, anti bait coimmunoprecipitation, proximity ligation assay	physical, physical association	12788789, 25241761, (Europe PMC)	0.59	BioGRID, IntAct
FOXA3	Affinity Capture-MS, tandem affinity purification	association, physical	25609649, (Europe PMC)	0.35	BioGRID, IntAct, MINT
G3BP1	Affinity Capture-MS	physical	26777405, (Europe PMC)	NA	BioGRID
GATA3	chromatin immunoprecipitation assay	association	25303530, (Europe PMC)	0.35	IntAct
GFAP	Two-hybrid, two hybrid pooling approach	physical, physical association	20936779, (Europe PMC)	0.37	BioGRID, IntAct
GLO1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
GNB2	Affinity Capture-Western	physical	23326349, (Europe PMC)	NA	BioGRID
GSPT2	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
GSTK1	anti bait coimmunoprecipitation	physical association	17353931, (Europe PMC)	0.40	IntAct
GTF2I	Reconstituted Complex	physical	9584171, (Europe PMC)	NA	BioGRID
HADH	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
HDAC1	Affinity Capture-Western	physical	16481475, (Europe PMC)	NA	BioGRID
HDAC3	Affinity Capture-Western	physical	16481475, (Europe PMC)	NA	BioGRID
HDAC4	Affinity Capture-Western	physical	21571862, (Europe PMC)	NA	BioGRID
HIRIP3	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
HIST1H2BJ	Affinity Capture-Western	physical	26479788, (Europe PMC)	NA	BioGRID
HIST2H3C	Affinity Capture-Western	physical	21689637, (Europe PMC)	NA	BioGRID
HLA-B	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
HLA-DRB5	Affinity Capture-MS	physical	26186194, (Europe PMC)	NA	BioGRID
HSCB	anti bait coimmunoprecipitation	association	28380382, (Europe PMC)	0.35	IntAct
HSD17B4	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
HSF1	Affinity Capture-Western	physical	9880553, (Europe PMC)	NA	BioGRID
HSP90AB1	Two-hybrid, two hybrid pooling approach	physical, physical association	20936779, (Europe PMC)	0.37	BioGRID, IntAct
HSP90B1	Affinity Capture-Western	physical	18662321, (Europe PMC)	NA	BioGRID
HSPA4L	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
HUWE1	Affinity Capture-MS	physical	25147182, (Europe PMC)	NA	BioGRID
IDE	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
IFNAR1	pull down	association, physical association	9121453, (Europe PMC)	0.50	IntAct, MINT
IFNAR2	Reconstituted Complex, pull down	association, physical, physical association	11301323, 9121453, (Europe PMC)	0.50	BioGRID, IntAct, MINT
IFNGR1	Affinity Capture-Western, Co-localization	physical	10848598, 21689637, (Europe PMC)	NA	BioGRID
IFNGR1	coimmunoprecipitation, competition binding, x-ray crystallography	association	15780933, 8156998, 8662591, (Europe PMC)	0.69	IntAct, MINT
IGBP1	Affinity Capture-Western, Co-fractionation	physical	19553685, (Europe PMC)	NA	BioGRID
IL27RA	Affinity Capture-Western, Reconstituted Complex	physical	12734330, (Europe PMC)	NA	BioGRID
IL2RB	Reconstituted Complex	physical	10602027, (Europe PMC)	NA	BioGRID
IL6ST	competition binding	association	8662591, (Europe PMC)	0.35	IntAct, MINT
INA	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
IRAK1	Affinity Capture-Western	physical	12856330, (Europe PMC)	NA	BioGRID
IRF1	Affinity Capture-Western, Reconstituted Complex	physical	10764778, 16512786, (Europe PMC)	NA	BioGRID
IRF9	Reconstituted Complex, Two-hybrid, anti bait coimmunoprecipitation, cross-linking study	association, physical	17923090, 24065129, 8943351, (Europe PMC)	0.53	BioGRID, IntAct, MINT
ISG15	Affinity Capture-MS	physical	16009940, (Europe PMC)	NA	BioGRID
ITGAV	Affinity Capture-Western	physical	23640055, (Europe PMC)	NA	BioGRID
JAK1	Affinity Capture-Western	physical	14978237, 15284024, (Europe PMC)	NA	BioGRID
JAK2	Affinity Capture-Western, Co-localization, protein kinase assay	phosphorylation reaction, physical	14978237, 15284024, 19834108, 20353823, 24255956, (Europe PMC)	0.44	BioGRID, IntAct, MINT
JMJD6	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
JUN	Affinity Capture-Western	physical	10490649, (Europe PMC)	NA	BioGRID
KARS	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
KDM3A	anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, pull down	physical association	25535969, (Europe PMC)	0.59	IntAct
KIT	Affinity Capture-Western, Biochemical Activity, Co-localization, Reconstituted Complex, proximity ligation assay	physical, physical association	25241761, 9355737, (Europe PMC)	0.40	BioGRID, IntAct
KPNA1	Reconstituted Complex, pull down	association, physical	10964507, 12048190, 26966684, (Europe PMC)	0.35	BioGRID, IntAct, MINT
KPNA6	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
LDHB	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
LMO2	Two-hybrid, two hybrid pooling approach	physical, physical association	16189514, 25416956, (Europe PMC)	0.37	BioGRID, IntAct
LZTR1	Two-hybrid	physical	20211142, (Europe PMC)	NA	BioGRID
MAVS	Affinity Capture-MS, Reconstituted Complex, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation	association, physical, physical association	21903422, (Europe PMC)	0.58	BioGRID, IntAct
MBD1	Affinity Capture-Western	physical	19074829, (Europe PMC)	NA	BioGRID
MCM5	Affinity Capture-Western, Reconstituted Complex	physical	11248027, 9843502, (Europe PMC)	NA	BioGRID
MLST8	Co-fractionation	physical	19553685, (Europe PMC)	NA	BioGRID
MT-ND4L	two hybrid	physical association	21988832, (Europe PMC)	0.37	IntAct
MTOR	Affinity Capture-Western, Co-fractionation, Co-localization, proximity ligation assay	physical, physical association	12807916, 19553685, 25241761, (Europe PMC)	0.40	BioGRID, IntAct
NAA10	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
NAA15	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
ND4L	Two-hybrid	physical	21988832, (Europe PMC)	NA	BioGRID
NDUFS3	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
NFKBIA	Affinity Capture-Western	physical	16481475, (Europe PMC)	NA	BioGRID
NMD3	Co-fractionation	physical	22939629, (Europe PMC)	NA	BioGRID
NMI	Reconstituted Complex, pull down	physical, physical association	9989503, (Europe PMC)	0.40	BioGRID, IntAct
NOMO1	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
NOMO2	Two-hybrid	physical	21988832, (Europe PMC)	NA	BioGRID
NOMO3	two hybrid	physical association	21988832, (Europe PMC)	0.37	IntAct
NR1H2	Affinity Capture-Western	physical	27485016, (Europe PMC)	NA	BioGRID
NR1H3	Affinity Capture-MS, Affinity Capture-Western	physical	27485016, (Europe PMC)	NA	BioGRID
NSF	Co-fractionation	physical	22939629, (Europe PMC)	NA	BioGRID
NTRK1	Affinity Capture-MS	physical	25921289, (Europe PMC)	NA	BioGRID
OTUD4	Two-hybrid, two hybrid array, two hybrid prey pooling approach, validated two hybrid	physical, physical association	25416956, (Europe PMC)	0.56	BioGRID, IntAct
PABPC3	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
PAK2	Co-fractionation	physical	26344197, (Europe PMC)	NA	BioGRID
PARP9	Affinity Capture-Western	physical	26479788, (Europe PMC)	NA	BioGRID
PAWR	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
PDGFRA	Co-localization, proximity ligation assay	physical, physical association	25241761, (Europe PMC)	0.40	BioGRID, IntAct
PDGFRB	proximity ligation assay	physical association	23397142, (Europe PMC)	0.40	IntAct
PFKL	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
PGD	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
PHGDH	Co-fractionation	physical	22939629, (Europe PMC)	NA	BioGRID
PIAS1	Affinity Capture-Western, Co-localization, Reconstituted Complex, Two-hybrid, proximity ligation assay	physical, physical association	10805787, 11257227, 12171910, 17371985, 18566411, 25241761, 9724754, (Europe PMC)	0.40	BioGRID, IntAct
PIK3CA	Biochemical Activity	physical	11438544, (Europe PMC)	NA	BioGRID
PLEC	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
PML	Affinity Capture-Western	physical	25733689, 25812002, (Europe PMC)	NA	BioGRID
POR	Two-hybrid	physical	21988832, (Europe PMC)	NA	BioGRID
POR	two hybrid	physical association	21988832, (Europe PMC)	0.37	IntAct
PPARA	Affinity Capture-Western	physical	26504087, (Europe PMC)	NA	BioGRID
PPARD	Affinity Capture-Western	physical	26504087, (Europe PMC)	NA	BioGRID
PPARG	Affinity Capture-Western, Co-localization	physical	26504087, (Europe PMC)	NA	BioGRID
PRKCD	Affinity Capture-Western, Biochemical Activity, Co-fractionation	physical	11839738, 12807916, 12817007, 15322115, 19553685, (Europe PMC)	NA	BioGRID
PRKCE	Affinity Capture-Western	physical	20353823, (Europe PMC)	NA	BioGRID
PRMT1	Affinity Capture-Western, Biochemical Activity	physical	11257227, (Europe PMC)	NA	BioGRID
PRMT3	Biochemical Activity	physical	11257227, (Europe PMC)	NA	BioGRID
PSMC3	Affinity Capture-Western	physical	19853614, (Europe PMC)	NA	BioGRID
PTBP2	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
PTK2	Affinity Capture-Western, Co-localization, Reconstituted Complex, proximity ligation assay	physical, physical association	11278462, 20576130, 25241761, (Europe PMC)	0.40	BioGRID, IntAct
PTP4A3	anti bait coimmunoprecipitation	physical association	17353931, (Europe PMC)	0.40	IntAct
PTPA	Affinity Capture-Western, Co-fractionation	physical	19553685, (Europe PMC)	NA	BioGRID
PTPN11	Two-hybrid	physical	27229929, (Europe PMC)	NA	BioGRID
PTPN2	Affinity Capture-Western	physical	12171910, 19171783, (Europe PMC)	NA	BioGRID
PYGL	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
RACK1	Affinity Capture-Western, Reconstituted Complex	physical	11301323, 12960323, (Europe PMC)	NA	BioGRID
RARA	anti tag coimmunoprecipitation, chromatin immunoprecipitation assay, pull down	association	25303530, (Europe PMC)	0.53	IntAct
RELA	Co-localization, proximity ligation assay	physical, physical association	25241761, (Europe PMC)	0.40	BioGRID, IntAct
RNF11	Affinity Capture-Western	physical	19131965, (Europe PMC)	NA	BioGRID
RPS6KB1	Co-fractionation	physical	19553685, (Europe PMC)	NA	BioGRID
RTF1	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
RXRA	Affinity Capture-Western, Two-hybrid, pull down, two hybrid	physical, physical association	21988832, (Europe PMC)	0.51	BioGRID, IntAct
SARS	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
SHANK1	Two-hybrid, two hybrid pooling approach	physical, physical association	20936779, (Europe PMC)	0.37	BioGRID, IntAct
SHMT1	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
SHMT2	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
SMARCA2	Affinity Capture-Western	physical	21079652, (Europe PMC)	NA	BioGRID
SMARCA4	Affinity Capture-Western, Co-localization	physical	16195385, 20353823, 21079652, (Europe PMC)	NA	BioGRID
SMURF1	Affinity Capture-Western	physical	22474288, (Europe PMC)	NA	BioGRID
SNX1	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
SNX2	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
SNX6	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
SPACA1	Affinity Capture-MS	physical	26186194, (Europe PMC)	NA	BioGRID
SPTAN1	Two-hybrid, pull down, two hybrid pooling approach	association, physical, physical association	20936779, 26966684, (Europe PMC)	0.55	BioGRID, IntAct, MINT
SPTB	Two-hybrid, two hybrid array, validated two hybrid	physical, physical association	25814554, (Europe PMC)	0.49	BioGRID, IntAct
SPTBN1	Two-hybrid, two hybrid pooling approach	physical, physical association	20936779, (Europe PMC)	0.37	BioGRID, IntAct
SRC	Affinity Capture-Western	physical	10358079, 14978237, 9344858, (Europe PMC)	NA	BioGRID
STAT1	Affinity Capture-Western, Co-crystal Structure, Co-purification, Reconstituted Complex, Two-hybrid, coimmunoprecipitation, competition binding, cosedimentation in solution, cross-linking study, dynamic light scattering, molecular sieving, pull down, x-ray crystallography	association, direct interaction, physical	15284440, 16007122, 18591661, 21914072, 8605877, 8621447, 9630226, (Europe PMC)	0.62, 0.64, 0.65	BioGRID, IntAct, MINT
STAT2	Affinity Capture-MS, Affinity Capture-Western, Co-localization, Co-purification, Reconstituted Complex, anti bait coimmunoprecipitation, coimmunoprecipitation, competition binding, cross-linking study, pull down	association, physical, physical association	10446176, 10490982, 12048190, 15825084, 17923090, 24065129, 26966684, 28514442, 8605877, 8621447, 9724754, (Europe PMC)	0.86	BioGRID, IntAct, MINT
STAT3	Affinity Capture-MS, Affinity Capture-Western, Co-localization, Reconstituted Complex	physical	11594781, 11722592, 12070153, 16007122, 25241761, 25609649, 28514442, (Europe PMC)	NA	BioGRID
STAT3	competition binding, proximity ligation assay, pull down, tandem affinity purification	association, physical association	25241761, 25609649, 26966684, 8662591, (Europe PMC)	0.74	IntAct, MINT
STAT4	Reconstituted Complex	physical	21826217, (Europe PMC)	NA	BioGRID
STAT5A	Co-localization, proximity ligation assay	physical, physical association	25241761, (Europe PMC)	0.40	BioGRID, IntAct
STK4	tandem affinity purification	association	23386615, (Europe PMC)	0.35	IntAct
STMN1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
TBCA	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
TBCD	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
TES	Affinity Capture-MS	physical	28378594, (Europe PMC)	NA	BioGRID
TEX264	Affinity Capture-MS	physical	26186194, (Europe PMC)	NA	BioGRID
TNFRSF1A	Affinity Capture-Western	physical	10848577, (Europe PMC)	NA	BioGRID
TNK2	Affinity Capture-Western	physical	28739485, (Europe PMC)	NA	BioGRID
TRADD	Affinity Capture-Western, Reconstituted Complex	physical	10848577, (Europe PMC)	NA	BioGRID
TRIM28	Affinity Capture-Western	physical	18037959, 18381204, (Europe PMC)	NA	BioGRID
TSNAX	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
TYK2	Biochemical Activity	physical	12960323, (Europe PMC)	NA	BioGRID
U2AF2	Affinity Capture-MS	physical	26641092, (Europe PMC)	NA	BioGRID
UBE2F	anti bait coimmunoprecipitation	physical association	17353931, (Europe PMC)	0.40	IntAct
UBE2I	Biochemical Activity	physical	14517261, (Europe PMC)	NA	BioGRID
UBE2M	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
UCHL1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
UQCRC1	pull down	association	26966684, (Europe PMC)	0.35	IntAct, MINT
USP13	Affinity Capture-Western	physical	23940278, (Europe PMC)	NA	BioGRID
USP2	Affinity Capture-Western	physical	27434509, (Europe PMC)	NA	BioGRID
VCP	Affinity Capture-MS	physical	23383273, (Europe PMC)	NA	BioGRID
VDR	Affinity Capture-Western, Reconstituted Complex	physical	11909970, (Europe PMC)	NA	BioGRID
VPS26A	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
VPS29	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID
XPO1	Affinity Capture-MS, Protein-peptide	physical	22833565, 26673895, (Europe PMC)	NA	BioGRID
YAP1	Co-fractionation	physical	22863883, (Europe PMC)	NA	BioGRID

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STAT1