GO Map

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{"P": [{"GO": "GO:0000086", "term": "G2/M transition of mitotic cell cycle", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0000087", "term": "M phase of mitotic cell cycle", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0000165", "term": "MAPK cascade", "value": 1, "aspect": "P", "children": [{"GO": "GO:0051403", "term": "stress-activated MAPK cascade", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0000184", "term": "nuclear-transcribed mRNA catabolic process, nonsense-mediated decay", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0000236", "term": "mitotic prometaphase", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0000278", "term": "mitotic cell cycle", "value": 2, "aspect": "P", "children": []}, {"GO": "GO:0000288", "term": "nuclear-transcribed mRNA catabolic process, deadenylation-dependent decay", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0000290", "term": "deadenylation-dependent decapping of nuclear-transcribed mRNA", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0000398", "term": "mRNA splicing, via spliceosome", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0001523", "term": "retinoid metabolic process", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0001771", "term": "immunological synapse formation", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0001782", "term": "B cell homeostasis", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0001817", "term": "regulation of cytokine production", "value": 1, "aspect": "P", "children": [{"GO": "GO:0032675", "term": "regulation of interleukin-6 production", "value": 1, "aspect": "P", "children": [{"GO": "GO:0032755", "term": "positive regulation of interleukin-6 production", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0032680", "term": "regulation of tumor necrosis factor production", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0001845", "term": "phagolysosome assembly", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0001932", "term": "regulation of protein phosphorylation", "value": 1, "aspect": "P", "children": [{"GO": "GO:0001933", "term": "negative regulation of protein phosphorylation", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0033127", "term": "regulation of histone phosphorylation", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0045859", "term": "regulation of protein kinase activity", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0002098", "term": "tRNA wobble uridine modification", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0002223", "term": "stimulatory C-type lectin receptor signaling pathway", "value": 3, "aspect": "P", "children": []}, {"GO": "GO:0002224", "term": "toll-like receptor signaling pathway", "value": 1, "aspect": "P", "children": [{"GO": "GO:0002755", "term": "MyD88-dependent toll-like receptor signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0002756", "term": "MyD88-independent toll-like receptor signaling pathway", "value": 1, "aspect": "P", "children": [{"GO": "GO:0035666", "term": "TRIF-dependent toll-like receptor signaling pathway", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0034130", "term": "toll-like receptor 1 signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0034134", "term": "toll-like receptor 2 signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0034138", "term": "toll-like receptor 3 signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0034142", "term": "toll-like receptor 4 signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0034146", "term": "toll-like receptor 5 signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0034162", "term": "toll-like receptor 9 signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0034166", "term": "toll-like receptor 10 signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0038123", "term": "toll-like receptor TLR1:TLR2 signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0038124", "term": "toll-like receptor TLR6:TLR2 signaling pathway", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0002283", "term": "neutrophil activation involved in immune response", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0002292", "term": "T cell differentiation involved in immune response", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0002431", "term": "Fc receptor mediated stimulatory signaling pathway", "value": 2, "aspect": "P", "children": [{"GO": "GO:0038096", "term": "Fc-gamma receptor signaling pathway involved in phagocytosis", "value": 3, "aspect": "P", "children": []}]}, {"GO": "GO:0002513", "term": "tolerance induction to self antigen", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0002576", "term": "platelet degranulation", "value": 3, "aspect": "P", "children": []}, {"GO": "GO:0002578", "term": "negative regulation of antigen processing and presentation", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0002645", "term": "positive regulation of tolerance induction", "value": 1, "aspect": "P", "children": [{"GO": "GO:0002666", "term": "positive regulation of T cell tolerance induction", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0002902", "term": "regulation of B cell apoptotic process", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0006090", "term": "pyruvate metabolic process", "value": 2, "aspect": "P", "children": []}, {"GO": "GO:0006096", "term": "glycolysis", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0006144", "term": "purine nucleobase metabolic process", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0006163", "term": "purine nucleotide metabolic process", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0006184", "term": "GTP catabolic process", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0006188", "term": "IMP biosynthetic process", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0006325", "term": "chromatin organization", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0006351", "term": "transcription, DNA-dependent", "value": 1, "aspect": "P", "children": [{"GO": "GO:0006366", "term": "transcription from RNA polymerase II promoter", "value": 1, "aspect": "P", "children": [{"GO": "GO:0042789", "term": "mRNA transcription from RNA polymerase II promoter", "value": 1, "aspect": "P", "children": []}]}]}, {"GO": "GO:0006357", "term": "regulation of transcription from RNA polymerase II promoter", "value": 1, "aspect": "P", "children": [{"GO": "GO:0000122", "term": "negative regulation of transcription from RNA polymerase II promoter", "value": 2, "aspect": "P", "children": []}, {"GO": "GO:0045944", "term": "positive regulation of transcription from RNA polymerase II promoter", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0006368", "term": "transcription elongation from RNA polymerase II promoter", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0006461", "term": "protein complex assembly", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0006468", "term": "protein phosphorylation", "value": 3, "aspect": "P", "children": [{"GO": "GO:0000187", "term": "activation of MAPK activity", "value": 2, "aspect": "P", "children": []}, {"GO": "GO:0018105", "term": "peptidyl-serine phosphorylation", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0018108", "term": "peptidyl-tyrosine phosphorylation", "value": 2, "aspect": "P", "children": [{"GO": "GO:0038083", "term": "peptidyl-tyrosine autophosphorylation", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0046777", "term": "protein autophosphorylation", "value": 3, "aspect": "P", "children": [{"GO": "GO:0038083", "term": "peptidyl-tyrosine autophosphorylation", "value": 1, "aspect": "P", "children": []}]}]}, {"GO": "GO:0006470", "term": "protein dephosphorylation", "value": 2, "aspect": "P", "children": [{"GO": "GO:0035335", "term": "peptidyl-tyrosine dephosphorylation", "value": 1, "aspect": "P", "children": [{"GO": "GO:1990264", "term": "peptidyl-tyrosine dephosphorylation involved in inactivation of protein kinase activity", "value": 1, "aspect": "P", "children": []}]}]}, {"GO": "GO:0006629", "term": "lipid metabolic process", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0006661", "term": "phosphatidylinositol biosynthetic process", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0006691", "term": "leukotriene metabolic process", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0006886", "term": "intracellular protein transport", "value": 1, "aspect": "P", "children": [{"GO": "GO:0006606", "term": "protein import into nucleus", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0006897", "term": "endocytosis", "value": 1, "aspect": "P", "children": [{"GO": "GO:0006898", "term": "receptor-mediated endocytosis", "value": 1, "aspect": "P", "children": [{"GO": "GO:0031623", "term": "receptor internalization", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0090118", "term": "receptor-mediated endocytosis of low-density lipoprotein particle involved in cholesterol transport", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0006909", "term": "phagocytosis", "value": 2, "aspect": "P", "children": []}]}, {"GO": "GO:0006928", "term": "cellular component movement", "value": 1, "aspect": "P", "children": [{"GO": "GO:0097485", "term": "neuron projection guidance", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0006935", "term": "chemotaxis", "value": 1, "aspect": "P", "children": [{"GO": "GO:0007411", "term": "axon guidance", "value": 4, "aspect": "P", "children": []}, {"GO": "GO:0050918", "term": "positive chemotaxis", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0060326", "term": "cell chemotaxis", "value": 1, "aspect": "P", "children": [{"GO": "GO:0030595", "term": "leukocyte chemotaxis", "value": 1, "aspect": "P", "children": [{"GO": "GO:0030593", "term": "neutrophil chemotaxis", "value": 1, "aspect": "P", "children": []}]}]}]}, {"GO": "GO:0006950", "term": "response to stress", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0006954", "term": "inflammatory response", "value": 3, "aspect": "P", "children": []}, {"GO": "GO:0006955", "term": "immune response", "value": 3, "aspect": "P", "children": [{"GO": "GO:0045087", "term": "innate immune response", "value": 7, "aspect": "P", "children": []}]}, {"GO": "GO:0006968", "term": "cellular defense response", "value": 3, "aspect": "P", "children": []}, {"GO": "GO:0006974", "term": "response to DNA damage stimulus", "value": 2, "aspect": "P", "children": []}, {"GO": "GO:0006987", "term": "activation of signaling protein activity involved in unfolded protein response", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0006996", "term": "organelle organization", "value": 2, "aspect": "P", "children": [{"GO": "GO:0007005", "term": "mitochondrion organization", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0007010", "term": "cytoskeleton organization", "value": 1, "aspect": "P", "children": [{"GO": "GO:0030036", "term": "actin cytoskeleton organization", "value": 2, "aspect": "P", "children": [{"GO": "GO:0030950", "term": "establishment or maintenance of actin cytoskeleton polarity", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0031532", "term": "actin cytoskeleton reorganization", "value": 1, "aspect": "P", "children": []}]}]}]}, {"GO": "GO:0007062", "term": "sister chromatid cohesion", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0007067", "term": "mitosis", "value": 2, "aspect": "P", "children": []}, {"GO": "GO:0007093", "term": "mitotic cell cycle checkpoint", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0007096", "term": "regulation of exit from mitosis", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0007155", "term": "cell adhesion", "value": 2, "aspect": "P", "children": [{"GO": "GO:0031589", "term": "cell-substrate adhesion", "value": 1, "aspect": "P", "children": [{"GO": "GO:0034446", "term": "substrate adhesion-dependent cell spreading", "value": 1, "aspect": "P", "children": []}]}]}, {"GO": "GO:0007165", "term": "signal transduction", "value": 11, "aspect": "P", "children": [{"GO": "GO:0007166", "term": "cell surface receptor signaling pathway", "value": 2, "aspect": "P", "children": [{"GO": "GO:0002768", "term": "immune response-regulating cell surface receptor signaling pathway", "value": 1, "aspect": "P", "children": [{"GO": "GO:0002767", "term": "immune response-inhibiting cell surface receptor signaling pathway", "value": 1, "aspect": "P", "children": [{"GO": "GO:0002774", "term": "Fc receptor mediated inhibitory signaling pathway", "value": 2, "aspect": "P", "children": []}]}]}, {"GO": "GO:0008063", "term": "Toll signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0016055", "term": "Wnt receptor signaling pathway", "value": 2, "aspect": "P", "children": []}, {"GO": "GO:0019221", "term": "cytokine-mediated signaling pathway", "value": 1, "aspect": "P", "children": [{"GO": "GO:0060333", "term": "interferon-gamma-mediated signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0060337", "term": "type I interferon-mediated signaling pathway", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0031663", "term": "lipopolysaccharide-mediated signaling pathway", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0023014", "term": "signal transduction by phosphorylation", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0035556", "term": "intracellular signal transduction", "value": 2, "aspect": "P", "children": [{"GO": "GO:0007264", "term": "small GTPase mediated signal transduction", "value": 3, "aspect": "P", "children": [{"GO": "GO:0007265", "term": "Ras protein signal transduction", "value": 1, "aspect": "P", "children": [{"GO": "GO:0007266", "term": "Rho protein signal transduction", "value": 1, "aspect": "P", "children": []}]}]}]}]}, {"GO": "GO:0007169", "term": "transmembrane receptor protein tyrosine kinase signaling pathway", "value": 2, "aspect": "P", "children": [{"GO": "GO:0048010", "term": "vascular endothelial growth factor receptor signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0048011", "term": "nerve growth factor receptor signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0048013", "term": "ephrin receptor signaling pathway", "value": 2, "aspect": "P", "children": []}]}, {"GO": "GO:0007173", "term": "epidermal growth factor receptor signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0007200", "term": "phospholipase C-activating G-protein coupled receptor signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0007202", "term": "activation of phospholipase C activity", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0007204", "term": "elevation of cytosolic calcium ion concentration", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0007267", "term": "cell-cell signaling", "value": 3, "aspect": "P", "children": []}, {"GO": "GO:0007413", "term": "axonal fasciculation", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0007417", "term": "central nervous system development", "value": 2, "aspect": "P", "children": []}, {"GO": "GO:0007596", "term": "blood coagulation", "value": 7, "aspect": "P", "children": []}, {"GO": "GO:0007603", "term": "phototransduction, visible light", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0007606", "term": "sensory perception of chemical stimulus", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0008037", "term": "cell recognition", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0008064", "term": "regulation of actin polymerization or depolymerization", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0008283", "term": "cell proliferation", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0008284", "term": "positive regulation of cell proliferation", "value": 1, "aspect": "P", "children": [{"GO": "GO:0050679", "term": "positive regulation of epithelial cell proliferation", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0008285", "term": "negative regulation of cell proliferation", "value": 2, "aspect": "P", "children": []}, {"GO": "GO:0009615", "term": "response to virus", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0009653", "term": "anatomical structure morphogenesis", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0009725", "term": "response to hormone stimulus", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0009966", "term": "regulation of signal transduction", "value": 1, "aspect": "P", "children": [{"GO": "GO:0009967", "term": "positive regulation of signal transduction", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0009968", "term": "negative regulation of signal transduction", "value": 1, "aspect": "P", "children": [{"GO": "GO:0010741", "term": "negative regulation of intracellular protein kinase cascade", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0030948", "term": "negative regulation of vascular endothelial growth factor receptor signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0046627", "term": "negative regulation of insulin receptor signaling pathway", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:1902532", "term": "negative regulation of intracellular signal transduction", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0032006", "term": "regulation of TOR signaling cascade", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0051056", "term": "regulation of small GTPase mediated signal transduction", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:1902202", "term": "regulation of hepatocyte growth factor receptor signaling pathway", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0010467", "term": "gene expression", "value": 3, "aspect": "P", "children": []}, {"GO": "GO:0010468", "term": "regulation of gene expression", "value": 1, "aspect": "P", "children": [{"GO": "GO:0010628", "term": "positive regulation of gene expression", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0010543", "term": "regulation of platelet activation", "value": 1, "aspect": "P", "children": [{"GO": "GO:0090330", "term": "regulation of platelet aggregation", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0010821", "term": "regulation of mitochondrion organization", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0010867", "term": "positive regulation of triglyceride biosynthetic process", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0010899", "term": "regulation of phosphatidylcholine catabolic process", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0010976", "term": "positive regulation of neuron projection development", "value": 2, "aspect": "P", "children": []}, {"GO": "GO:0015914", "term": "phospholipid transport", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0016064", "term": "immunoglobulin mediated immune response", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0016070", "term": "RNA metabolic process", "value": 2, "aspect": "P", "children": [{"GO": "GO:0006396", "term": "RNA processing", "value": 1, "aspect": "P", "children": [{"GO": "GO:0008380", "term": "RNA splicing", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0016071", "term": "mRNA metabolic process", "value": 2, "aspect": "P", "children": []}]}, {"GO": "GO:0016241", "term": "regulation of macroautophagy", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0016477", "term": "cell migration", "value": 3, "aspect": "P", "children": [{"GO": "GO:0001764", "term": "neuron migration", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0044319", "term": "wound healing, spreading of cells", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0050900", "term": "leukocyte migration", "value": 5, "aspect": "P", "children": [{"GO": "GO:0030595", "term": "leukocyte chemotaxis", "value": 1, "aspect": "P", "children": [{"GO": "GO:0030593", "term": "neutrophil chemotaxis", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0050904", "term": "diapedesis", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0060326", "term": "cell chemotaxis", "value": 1, "aspect": "P", "children": [{"GO": "GO:0030595", "term": "leukocyte chemotaxis", "value": 1, "aspect": "P", "children": [{"GO": "GO:0030593", "term": "neutrophil chemotaxis", "value": 1, "aspect": "P", "children": []}]}]}]}, {"GO": "GO:0016567", "term": "protein ubiquitination", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0016579", "term": "protein deubiquitination", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0018208", "term": "peptidyl-proline modification", "value": 1, "aspect": "P", "children": [{"GO": "GO:0000413", "term": "protein peptidyl-prolyl isomerization", "value": 1, "aspect": "P", "children": []}]}, {"GO": "GO:0019369", "term": "arachidonic acid metabolic process", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0019722", "term": "calcium-mediated signaling", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0019886", "term": "antigen processing and presentation of exogenous peptide antigen via MHC class II", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0021762", "term": "substantia nigra development", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0021955", "term": "central nervous system neuron axonogenesis", "value": 1, "aspect": "P", "children": []}, {"GO": "GO:0022604", "term": "regulation of cell morphogenesis", "value": 1, "aspect": "P", "children": [{"GO": "GO:0008360", "term": "regulation of cell 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membrane", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0031672", "term": "A band", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0031982", "term": "vesicle", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0032998", "term": "Fc-epsilon receptor I complex", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0036064", "term": "cilium basal body", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0042645", "term": "mitochondrial nucleoid", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0043231", "term": "intracellular membrane-bounded organelle", "value": 4, "aspect": "C", "children": [{"GO": "GO:0005634", "term": "nucleus", "value": 15, "aspect": "C", "children": []}, {"GO": "GO:0005739", "term": "mitochondrion", "value": 2, "aspect": "C", "children": []}, {"GO": "GO:0005768", "term": "endosome", "value": 1, "aspect": "C", "children": [{"GO": "GO:0005769", "term": "early endosome", "value": 3, "aspect": "C", "children": []}, {"GO": "GO:0005770", "term": "late endosome", "value": 2, "aspect": "C", "children": []}, {"GO": "GO:0097443", "term": "sorting endosome", "value": 1, "aspect": "C", "children": []}]}, {"GO": "GO:0005783", "term": "endoplasmic reticulum", "value": 2, "aspect": "C", "children": []}, {"GO": "GO:0005794", "term": "Golgi apparatus", "value": 4, "aspect": "C", "children": []}]}, {"GO": "GO:0043234", "term": "protein complex", "value": 1, "aspect": "C", "children": [{"GO": "GO:0000123", "term": "histone acetyltransferase complex", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0000151", "term": "ubiquitin ligase complex", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0000776", "term": "kinetochore", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0005884", "term": "actin filament", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0008023", "term": "transcription elongation factor complex", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0017053", "term": "transcriptional repressor complex", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0030904", "term": "retromer complex", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0030906", "term": "retromer complex, inner shell", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0033588", "term": "Elongator holoenzyme complex", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0035145", "term": "exon-exon junction complex", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0043235", "term": "receptor complex", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:1990423", "term": "RZZ complex", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:1990666", "term": "PCSK9-LDLR complex", "value": 1, "aspect": "C", "children": []}]}, {"GO": "GO:0043292", "term": "contractile fiber", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0045121", "term": "membrane raft", "value": 3, "aspect": "C", "children": []}, {"GO": "GO:0045177", "term": "apical part of cell", "value": 2, "aspect": "C", "children": []}, {"GO": "GO:0045335", "term": "phagocytic vesicle", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0048471", "term": "perinuclear region of cytoplasm", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0070062", "term": "extracellular vesicular exosome", "value": 13, "aspect": "C", "children": []}, {"GO": "GO:0072357", "term": "PTW/PP1 phosphatase complex", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0097422", "term": "tubular endosome", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0098554", "term": "cytoplasmic side of endoplasmic reticulum membrane", "value": 1, "aspect": "C", "children": []}, {"GO": "GO:0099073", "term": "mitochondrion-derived vesicle", "value": 1, "aspect": "C", "children": []}], "total": 580, "F": [{"GO": "GO:0000340", "term": "RNA 7-methylguanosine cap binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0000977", "term": "RNA polymerase II regulatory region sequence-specific DNA binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0000993", "term": "RNA polymerase II core binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0001085", "term": "RNA polymerase II transcription factor binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0001191", "term": "RNA polymerase II transcription factor binding transcription factor activity involved in negative regulation of transcription", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0001227", "term": "RNA polymerase II transcription regulatory region sequence-specific DNA binding transcription factor activity involved in negative regulation of transcription", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0003676", "term": "nucleic acid binding", "value": 1, "aspect": "F", "children": [{"GO": "GO:0003677", "term": "DNA binding", "value": 2, "aspect": "F", "children": []}]}, {"GO": "GO:0003682", "term": "chromatin binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0003690", "term": "double-stranded DNA binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0003697", "term": "single-stranded DNA binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0003713", "term": "transcription coactivator activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0003714", "term": "transcription corepressor activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0003729", "term": "mRNA binding", "value": 1, "aspect": "F", "children": [{"GO": "GO:0008143", "term": "poly(A) RNA binding", "value": 1, "aspect": "F", "children": []}]}, {"GO": "GO:0003755", "term": "peptidyl-prolyl cis-trans isomerase activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0003876", "term": "AMP deaminase activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0003924", "term": "GTPase activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0004197", "term": "cysteine-type endopeptidase activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0004459", "term": "L-lactate dehydrogenase activity", "value": 2, "aspect": "F", "children": []}, {"GO": "GO:0004629", "term": "phospholipase C activity", "value": 1, "aspect": "F", "children": [{"GO": "GO:0004435", "term": "phosphatidylinositol phospholipase C activity", "value": 1, "aspect": "F", "children": []}]}, {"GO": "GO:0004672", "term": "protein kinase activity", "value": 3, "aspect": "F", "children": [{"GO": "GO:0004674", "term": "protein serine/threonine kinase activity", "value": 1, "aspect": "F", "children": [{"GO": "GO:0004683", "term": "calmodulin-dependent protein kinase activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0009931", "term": "calcium-dependent protein serine/threonine kinase activity", "value": 1, "aspect": "F", "children": []}]}, {"GO": "GO:0004713", "term": "protein tyrosine kinase activity", "value": 1, "aspect": "F", "children": [{"GO": "GO:0004715", "term": "non-membrane spanning protein tyrosine kinase activity", "value": 2, "aspect": "F", "children": []}, {"GO": "GO:0004716", "term": "receptor signaling protein tyrosine kinase activity", "value": 1, "aspect": "F", "children": []}]}]}, {"GO": "GO:0004725", "term": "protein tyrosine phosphatase activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0004842", "term": "ubiquitin-protein ligase activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0004843", "term": "ubiquitin-specific protease activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0004871", "term": "signal transducer activity", "value": 2, "aspect": "F", "children": [{"GO": "GO:0005057", "term": "receptor signaling protein activity", "value": 1, "aspect": "F", "children": [{"GO": "GO:0004716", "term": "receptor signaling protein tyrosine kinase activity", "value": 1, "aspect": "F", "children": []}]}]}, {"GO": "GO:0004872", "term": "receptor activity", "value": 3, "aspect": "F", "children": []}, {"GO": "GO:0004878", "term": "complement component C5a receptor activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0004930", "term": "G-protein coupled receptor activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0004944", "term": "C5a anaphylatoxin receptor activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0005041", "term": "low-density lipoprotein receptor activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0005070", "term": "SH3/SH2 adaptor activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0005096", "term": "GTPase activator activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0005100", "term": "Rho GTPase activator activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0005509", "term": "calcium ion binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0005515", "term": "protein binding", "value": 41, "aspect": "F", "children": [{"GO": "GO:0001948", "term": "glycoprotein binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0005102", "term": "receptor binding", "value": 2, "aspect": "F", "children": [{"GO": "GO:0030971", "term": "receptor tyrosine kinase binding", "value": 1, "aspect": "F", "children": [{"GO": "GO:0005068", "term": "transmembrane receptor protein tyrosine kinase adaptor activity", "value": 1, "aspect": "F", "children": []}]}, {"GO": "GO:0046875", "term": "ephrin receptor binding", "value": 1, "aspect": "F", "children": []}]}, {"GO": "GO:0005516", "term": "calmodulin binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0008022", "term": "protein C-terminus binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0008092", "term": "cytoskeletal protein binding", "value": 1, "aspect": "F", "children": [{"GO": "GO:0003779", "term": "actin binding", "value": 1, "aspect": "F", "children": [{"GO": "GO:0003785", "term": "actin monomer binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0051015", "term": "actin filament binding", "value": 2, "aspect": "F", "children": []}]}]}, {"GO": "GO:0019899", "term": "enzyme binding", "value": 2, "aspect": "F", "children": [{"GO": "GO:0002020", "term": "protease binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0017151", "term": "DEAD/H-box RNA helicase binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0042826", "term": "histone deacetylase binding", "value": 1, "aspect": "F", "children": []}]}, {"GO": "GO:0042802", "term": "identical protein binding", "value": 3, "aspect": "F", "children": [{"GO": "GO:0042803", "term": "protein homodimerization activity", "value": 1, "aspect": "F", "children": []}]}, {"GO": "GO:0043548", "term": "phosphatidylinositol 3-kinase binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0044325", "term": "ion channel binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0050839", "term": "cell adhesion molecule binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0071889", "term": "14-3-3 protein binding", "value": 1, "aspect": "F", "children": []}]}, {"GO": "GO:0005528", "term": "FK506 binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0005543", "term": "phospholipid binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0008157", "term": "protein phosphatase 1 binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0008270", "term": "zinc ion binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0008536", "term": "Ran GTPase binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0008565", "term": "protein transporter activity", "value": 2, "aspect": "F", "children": []}, {"GO": "GO:0008607", "term": "phosphorylase kinase regulator activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0010484", "term": "H3 histone acetyltransferase activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0010485", "term": "H4 histone acetyltransferase activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0019767", "term": "IgE receptor activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0019863", "term": "IgE binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0019864", "term": "IgG binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0019901", "term": "protein kinase binding", "value": 2, "aspect": "F", "children": [{"GO": "GO:0051019", "term": "mitogen-activated protein kinase binding", "value": 1, "aspect": "F", "children": []}]}, {"GO": "GO:0023029", "term": "MHC class Ib protein binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0030169", "term": "low-density lipoprotein particle binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0030229", "term": "very-low-density lipoprotein particle receptor activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0030234", "term": "enzyme regulator activity", "value": 1, "aspect": "F", "children": [{"GO": "GO:0004857", "term": "enzyme inhibitor activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0019208", "term": "phosphatase regulator activity", "value": 1, "aspect": "F", "children": []}]}, {"GO": "GO:0030246", "term": "carbohydrate binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0031748", "term": "D1 dopamine receptor binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0032036", "term": "myosin heavy chain binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0032050", "term": "clathrin heavy chain binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0032396", "term": "inhibitory MHC class I receptor activity", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0034046", "term": "poly(G) RNA binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0034237", "term": "protein kinase A regulatory subunit binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0042169", "term": "SH2 domain binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0042288", "term": "MHC class I protein binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0043022", "term": "ribosome binding", "value": 2, "aspect": "F", "children": []}, {"GO": "GO:0043499", "term": "eukaryotic cell surface binding", "value": 1, "aspect": "F", "children": []}, {"GO": "GO:0044822", "term": "poly(A) RNA binding", "value": 13, "aspect": "F", "children": []}, {"GO": "GO:0098641", "term": "cadherin binding involved in cell-cell adhesion", "value": 3, "aspect": "F", "children": []}]}

Molecular Functions

GO Term Proteins
GO:0005515 protein binding 41
GO:0044822 poly(A) RNA binding 13
None - 11
GO:0004672 protein kinase activity 3
GO:0004872 receptor activity 3
GO:0042802 identical protein binding 3
GO:0098641 cadherin binding involved in cell-cell adhesion 3
GO:0003677 DNA binding 2
GO:0004459 L-lactate dehydrogenase activity 2
GO:0004715 non-membrane spanning protein tyrosine kinase activity 2
GO:0004871 signal transducer activity 2
GO:0005102 receptor binding 2
GO:0008565 protein transporter activity 2
GO:0019899 enzyme binding 2
GO:0019901 protein kinase binding 2
GO:0043022 ribosome binding 2
GO:0051015 actin filament binding 2
GO:0000340 RNA 7-methylguanosine cap binding 1
GO:0000977 RNA polymerase II regulatory region sequence-specific DNA binding 1
GO:0000993 RNA polymerase II core binding 1
GO:0001085 RNA polymerase II transcription factor binding 1
GO:0001191 RNA polymerase II transcription factor binding transcription factor activity involved in negative regulation of transcription 1
GO:0001227 RNA polymerase II transcription regulatory region sequence-specific DNA binding transcription factor activity involved in negative regulation of transcription 1
GO:0001948 glycoprotein binding 1
GO:0002020 protease binding 1
GO:0003676 nucleic acid binding 1
GO:0003682 chromatin binding 1
GO:0003690 double-stranded DNA binding 1
GO:0003697 single-stranded DNA binding 1
GO:0003713 transcription coactivator activity 1
GO:0003714 transcription corepressor activity 1
GO:0003729 mRNA binding 1
GO:0003755 peptidyl-prolyl cis-trans isomerase activity 1
GO:0003779 actin binding 1
GO:0003785 actin monomer binding 1
GO:0003876 AMP deaminase activity 1
GO:0003924 GTPase activity 1
GO:0004197 cysteine-type endopeptidase activity 1
GO:0004435 phosphatidylinositol phospholipase C activity 1
GO:0004629 phospholipase C activity 1
GO:0004674 protein serine/threonine kinase activity 1
GO:0004683 calmodulin-dependent protein kinase activity 1
GO:0004713 protein tyrosine kinase activity 1
GO:0004716 receptor signaling protein tyrosine kinase activity 1
GO:0004725 protein tyrosine phosphatase activity 1
GO:0004842 ubiquitin-protein ligase activity 1
GO:0004843 ubiquitin-specific protease activity 1
GO:0004857 enzyme inhibitor activity 1
GO:0004878 complement component C5a receptor activity 1
GO:0004930 G-protein coupled receptor activity 1
GO:0004944 C5a anaphylatoxin receptor activity 1
GO:0005041 low-density lipoprotein receptor activity 1
GO:0005057 receptor signaling protein activity 1
GO:0005068 transmembrane receptor protein tyrosine kinase adaptor activity 1
GO:0005070 SH3/SH2 adaptor activity 1
GO:0005096 GTPase activator activity 1
GO:0005100 Rho GTPase activator activity 1
GO:0005509 calcium ion binding 1
GO:0005516 calmodulin binding 1
GO:0005528 FK506 binding 1
GO:0005543 phospholipid binding 1
GO:0008022 protein C-terminus binding 1
GO:0008092 cytoskeletal protein binding 1
GO:0008143 poly(A) RNA binding 1
GO:0008157 protein phosphatase 1 binding 1
GO:0008270 zinc ion binding 1
GO:0008536 Ran GTPase binding 1
GO:0008607 phosphorylase kinase regulator activity 1
GO:0009931 calcium-dependent protein serine/threonine kinase activity 1
GO:0010484 H3 histone acetyltransferase activity 1
GO:0010485 H4 histone acetyltransferase activity 1
GO:0017151 DEAD/H-box RNA helicase binding 1
GO:0019208 phosphatase regulator activity 1
GO:0019767 IgE receptor activity 1
GO:0019863 IgE binding 1
GO:0019864 IgG binding 1
GO:0023029 MHC class Ib protein binding 1
GO:0030169 low-density lipoprotein particle binding 1
GO:0030229 very-low-density lipoprotein particle receptor activity 1
GO:0030234 enzyme regulator activity 1
GO:0030246 carbohydrate binding 1
GO:0030971 receptor tyrosine kinase binding 1
GO:0031748 D1 dopamine receptor binding 1
GO:0032036 myosin heavy chain binding 1
GO:0032050 clathrin heavy chain binding 1
GO:0032396 inhibitory MHC class I receptor activity 1
GO:0034046 poly(G) RNA binding 1
GO:0034237 protein kinase A regulatory subunit binding 1
GO:0042169 SH2 domain binding 1
GO:0042288 MHC class I protein binding 1
GO:0042803 protein homodimerization activity 1
GO:0042826 histone deacetylase binding 1
GO:0043499 eukaryotic cell surface binding 1
GO:0043548 phosphatidylinositol 3-kinase binding 1
GO:0044325 ion channel binding 1
GO:0046875 ephrin receptor binding 1
GO:0050839 cell adhesion molecule binding 1
GO:0051019 mitogen-activated protein kinase binding 1
GO:0071889 14-3-3 protein binding 1

Cellular Components

GO Term Proteins
GO:0005737 cytoplasm 21
GO:0005829 cytosol 18
GO:0005886 plasma membrane 17
None - 17
GO:0005634 nucleus 15
GO:0070062 extracellular vesicular exosome 13
GO:0016020 membrane 11
GO:0005654 nucleoplasm 10
GO:0005887 integral to plasma membrane 9
GO:0005730 nucleolus 5
GO:0005794 Golgi apparatus 4
GO:0009986 cell surface 4
GO:0015629 actin cytoskeleton 4
GO:0043231 intracellular membrane-bounded organelle 4
GO:0005615 extracellular space 3
GO:0005622 intracellular 3
GO:0005769 early endosome 3
GO:0005913 cell-cell adherens junction 3
GO:0005925 focal adhesion 3
GO:0009897 external side of plasma membrane 3
GO:0045121 membrane raft 3
GO:0005739 mitochondrion 2
GO:0005764 lysosome 2
GO:0005770 late endosome 2
GO:0005783 endoplasmic reticulum 2
GO:0005813 centrosome 2
GO:0010008 endosome membrane 2
GO:0016323 basolateral plasma membrane 2
GO:0045177 apical part of cell 2
GO:0000123 histone acetyltransferase complex 1
GO:0000139 Golgi membrane 1
GO:0000151 ubiquitin ligase complex 1
GO:0000776 kinetochore 1
GO:0000922 spindle pole 1
GO:0000932 cytoplasmic mRNA processing body 1
GO:0001772 immunological synapse 1
GO:0001891 phagocytic cup 1
GO:0005635 nuclear envelope 1
GO:0005681 spliceosomal complex 1
GO:0005759 mitochondrial matrix 1
GO:0005765 lysosomal membrane 1
GO:0005768 endosome 1
GO:0005789 endoplasmic reticulum membrane 1
GO:0005828 kinetochore microtubule 1
GO:0005884 actin filament 1
GO:0005905 coated pit 1
GO:0008023 transcription elongation factor complex 1
GO:0015630 microtubule cytoskeleton 1
GO:0016021 integral to membrane 1
GO:0016363 nuclear matrix 1
GO:0016591 DNA-directed RNA polymerase II, holoenzyme 1
GO:0016607 nuclear speck 1
GO:0017053 transcriptional repressor complex 1
GO:0019005 SCF ubiquitin ligase complex 1
GO:0030018 Z disc 1
GO:0030027 lamellipodium 1
GO:0030054 cell junction 1
GO:0030133 transport vesicle 1
GO:0030669 clathrin-coated endocytic vesicle membrane 1
GO:0030864 cortical actin cytoskeleton 1
GO:0030904 retromer complex 1
GO:0030906 retromer complex, inner shell 1
GO:0031012 extracellular matrix 1
GO:0031092 platelet alpha granule membrane 1
GO:0031234 extrinsic to internal side of plasma membrane 1
GO:0031672 A band 1
GO:0031982 vesicle 1
GO:0032998 Fc-epsilon receptor I complex 1
GO:0033588 Elongator holoenzyme complex 1
GO:0035145 exon-exon junction complex 1
GO:0036064 cilium basal body 1
GO:0042645 mitochondrial nucleoid 1
GO:0043234 protein complex 1
GO:0043235 receptor complex 1
GO:0043292 contractile fiber 1
GO:0045335 phagocytic vesicle 1
GO:0048471 perinuclear region of cytoplasm 1
GO:0072357 PTW/PP1 phosphatase complex 1
GO:0097422 tubular endosome 1
GO:0097443 sorting endosome 1
GO:0098554 cytoplasmic side of endoplasmic reticulum membrane 1
GO:0099073 mitochondrion-derived vesicle 1
GO:1990423 RZZ complex 1
GO:1990666 PCSK9-LDLR complex 1

Biological Processes

GO Term Proteins
None - 19
GO:0007165 signal transduction 11
GO:0007596 blood coagulation 7
GO:0045087 innate immune response 7
GO:0030168 platelet activation 6
GO:0044281 small molecule metabolic process 6
GO:0050900 leukocyte migration 5
GO:0007411 axon guidance 4
GO:0050776 regulation of immune response 4
GO:0002223 stimulatory C-type lectin receptor signaling pathway 3
GO:0002576 platelet degranulation 3
GO:0006468 protein phosphorylation 3
GO:0006954 inflammatory response 3
GO:0006955 immune response 3
GO:0006968 cellular defense response 3
GO:0007264 small GTPase mediated signal transduction 3
GO:0007267 cell-cell signaling 3
GO:0010467 gene expression 3
GO:0016477 cell migration 3
GO:0038095 Fc-epsilon receptor signaling pathway 3
GO:0038096 Fc-gamma receptor signaling pathway involved in phagocytosis 3
GO:0046777 protein autophosphorylation 3
GO:0000122 negative regulation of transcription from RNA polymerase II promoter 2
GO:0000187 activation of MAPK activity 2
GO:0000278 mitotic cell cycle 2
GO:0002431 Fc receptor mediated stimulatory signaling pathway 2
GO:0002774 Fc receptor mediated inhibitory signaling pathway 2
GO:0006090 pyruvate metabolic process 2
GO:0006470 protein dephosphorylation 2
GO:0006909 phagocytosis 2
GO:0006974 response to DNA damage stimulus 2
GO:0006996 organelle organization 2
GO:0007067 mitosis 2
GO:0007155 cell adhesion 2
GO:0007166 cell surface receptor signaling pathway 2
GO:0007169 transmembrane receptor protein tyrosine kinase signaling pathway 2
GO:0007417 central nervous system development 2
GO:0008285 negative regulation of cell proliferation 2
GO:0010976 positive regulation of neuron projection development 2
GO:0016055 Wnt receptor signaling pathway 2
GO:0016070 RNA metabolic process 2
GO:0016071 mRNA metabolic process 2
GO:0018108 peptidyl-tyrosine phosphorylation 2
GO:0030036 actin cytoskeleton organization 2
GO:0032956 regulation of actin cytoskeleton organization 2
GO:0035556 intracellular signal transduction 2
GO:0043407 negative regulation of MAP kinase activity 2
GO:0044237 cellular metabolic process 2
GO:0045892 negative regulation of transcription, DNA-dependent 2
GO:0048013 ephrin receptor signaling pathway 2
GO:0050777 negative regulation of immune response 2
GO:0050852 T cell receptor signaling pathway 2
GO:0060397 JAK-STAT cascade involved in growth hormone signaling pathway 2
GO:0070373 negative regulation of ERK1 and ERK2 cascade 2
GO:0071404 cellular response to low-density lipoprotein particle stimulus 2
GO:0000086 G2/M transition of mitotic cell cycle 1
GO:0000087 M phase of mitotic cell cycle 1
GO:0000165 MAPK cascade 1
GO:0000184 nuclear-transcribed mRNA catabolic process, nonsense-mediated decay 1
GO:0000236 mitotic prometaphase 1
GO:0000288 nuclear-transcribed mRNA catabolic process, deadenylation-dependent decay 1
GO:0000290 deadenylation-dependent decapping of nuclear-transcribed mRNA 1
GO:0000398 mRNA splicing, via spliceosome 1
GO:0000413 protein peptidyl-prolyl isomerization 1
GO:0001523 retinoid metabolic process 1
GO:0001764 neuron migration 1
GO:0001771 immunological synapse formation 1
GO:0001782 B cell homeostasis 1
GO:0001817 regulation of cytokine production 1
GO:0001845 phagolysosome assembly 1
GO:0001932 regulation of protein phosphorylation 1
GO:0001933 negative regulation of protein phosphorylation 1
GO:0002098 tRNA wobble uridine modification 1
GO:0002224 toll-like receptor signaling pathway 1
GO:0002283 neutrophil activation involved in immune response 1
GO:0002292 T cell differentiation involved in immune response 1
GO:0002513 tolerance induction to self antigen 1
GO:0002578 negative regulation of antigen processing and presentation 1
GO:0002645 positive regulation of tolerance induction 1
GO:0002666 positive regulation of T cell tolerance induction 1
GO:0002755 MyD88-dependent toll-like receptor signaling pathway 1
GO:0002756 MyD88-independent toll-like receptor signaling pathway 1
GO:0002767 immune response-inhibiting cell surface receptor signaling pathway 1
GO:0002768 immune response-regulating cell surface receptor signaling pathway 1
GO:0002902 regulation of B cell apoptotic process 1
GO:0006096 glycolysis 1
GO:0006144 purine nucleobase metabolic process 1
GO:0006163 purine nucleotide metabolic process 1
GO:0006184 GTP catabolic process 1
GO:0006188 IMP biosynthetic process 1
GO:0006325 chromatin organization 1
GO:0006351 transcription, DNA-dependent 1
GO:0006357 regulation of transcription from RNA polymerase II promoter 1
GO:0006366 transcription from RNA polymerase II promoter 1
GO:0006368 transcription elongation from RNA polymerase II promoter 1
GO:0006396 RNA processing 1
GO:0006412 translation 1
GO:0006457 protein folding 1
GO:0006461 protein complex assembly 1
GO:0006606 protein import into nucleus 1
GO:0006629 lipid metabolic process 1
GO:0006661 phosphatidylinositol biosynthetic process 1
GO:0006691 leukotriene metabolic process 1
GO:0006886 intracellular protein transport 1
GO:0006897 endocytosis 1
GO:0006898 receptor-mediated endocytosis 1
GO:0006928 cellular component movement 1
GO:0006935 chemotaxis 1
GO:0006950 response to stress 1
GO:0006987 activation of signaling protein activity involved in unfolded protein response 1
GO:0007005 mitochondrion organization 1
GO:0007010 cytoskeleton organization 1
GO:0007062 sister chromatid cohesion 1
GO:0007093 mitotic cell cycle checkpoint 1
GO:0007096 regulation of exit from mitosis 1
GO:0007173 epidermal growth factor receptor signaling pathway 1
GO:0007200 phospholipase C-activating G-protein coupled receptor signaling pathway 1
GO:0007202 activation of phospholipase C activity 1
GO:0007204 elevation of cytosolic calcium ion concentration 1
GO:0007265 Ras protein signal transduction 1
GO:0007266 Rho protein signal transduction 1
GO:0007413 axonal fasciculation 1
GO:0007603 phototransduction, visible light 1
GO:0007606 sensory perception of chemical stimulus 1
GO:0008037 cell recognition 1
GO:0008063 Toll signaling pathway 1
GO:0008064 regulation of actin polymerization or depolymerization 1
GO:0008283 cell proliferation 1
GO:0008284 positive regulation of cell proliferation 1
GO:0008360 regulation of cell shape 1
GO:0008380 RNA splicing 1
GO:0009615 response to virus 1
GO:0009653 anatomical structure morphogenesis 1
GO:0009725 response to hormone stimulus 1
GO:0009966 regulation of signal transduction 1
GO:0009967 positive regulation of signal transduction 1
GO:0009968 negative regulation of signal transduction 1
GO:0010468 regulation of gene expression 1
GO:0010543 regulation of platelet activation 1
GO:0010628 positive regulation of gene expression 1
GO:0010741 negative regulation of intracellular protein kinase cascade 1
GO:0010821 regulation of mitochondrion organization 1
GO:0010867 positive regulation of triglyceride biosynthetic process 1
GO:0010899 regulation of phosphatidylcholine catabolic process 1
GO:0015914 phospholipid transport 1
GO:0016064 immunoglobulin mediated immune response 1
GO:0016241 regulation of macroautophagy 1
GO:0016358 dendrite development 1
GO:0016567 protein ubiquitination 1
GO:0016579 protein deubiquitination 1
GO:0018105 peptidyl-serine phosphorylation 1
GO:0018208 peptidyl-proline modification 1
GO:0019221 cytokine-mediated signaling pathway 1
GO:0019369 arachidonic acid metabolic process 1
GO:0019722 calcium-mediated signaling 1
GO:0019886 antigen processing and presentation of exogenous peptide antigen via MHC class II 1
GO:0021762 substantia nigra development 1
GO:0021955 central nervous system neuron axonogenesis 1
GO:0022604 regulation of cell morphogenesis 1
GO:0023014 signal transduction by phosphorylation 1
GO:0030042 actin filament depolymerization 1
GO:0030100 regulation of endocytosis 1
GO:0030155 regulation of cell adhesion 1
GO:0030183 B cell differentiation 1
GO:0030198 extracellular matrix organization 1
GO:0030218 erythrocyte differentiation 1
GO:0030299 intestinal cholesterol absorption 1
GO:0030301 cholesterol transport 1
GO:0030335 positive regulation of cell migration 1
GO:0030449 regulation of complement activation 1
GO:0030593 neutrophil chemotaxis 1
GO:0030595 leukocyte chemotaxis 1
GO:0030879 mammary gland development 1
GO:0030889 negative regulation of B cell proliferation 1
GO:0030948 negative regulation of vascular endothelial growth factor receptor signaling pathway 1
GO:0030950 establishment or maintenance of actin cytoskeleton polarity 1
GO:0030968 endoplasmic reticulum unfolded protein response 1
GO:0031047 gene silencing by RNA 1
GO:0031065 positive regulation of histone deacetylation 1
GO:0031087 deadenylation-independent decapping of nuclear-transcribed mRNA 1
GO:0031146 SCF-dependent proteasomal ubiquitin-dependent protein catabolic process 1
GO:0031175 neuron projection development 1
GO:0031295 T cell costimulation 1
GO:0031532 actin cytoskeleton reorganization 1
GO:0031572 G2/M transition DNA damage checkpoint 1
GO:0031589 cell-substrate adhesion 1
GO:0031623 receptor internalization 1
GO:0031647 regulation of protein stability 1
GO:0031663 lipopolysaccharide-mediated signaling pathway 1
GO:0031668 cellular response to extracellular stimulus 1
GO:0032006 regulation of TOR signaling cascade 1
GO:0032268 regulation of cellular protein metabolic process 1
GO:0032321 positive regulation of Rho GTPase activity 1
GO:0032496 response to lipopolysaccharide 1
GO:0032675 regulation of interleukin-6 production 1
GO:0032680 regulation of tumor necrosis factor production 1
GO:0032755 positive regulation of interleukin-6 production 1
GO:0032796 uropod organization 1
GO:0033003 regulation of mast cell activation 1
GO:0033127 regulation of histone phosphorylation 1
GO:0033157 regulation of intracellular protein transport 1
GO:0033628 regulation of cell adhesion mediated by integrin 1
GO:0034097 response to cytokine stimulus 1
GO:0034113 heterotypic cell-cell adhesion 1
GO:0034130 toll-like receptor 1 signaling pathway 1
GO:0034134 toll-like receptor 2 signaling pathway 1
GO:0034136 negative regulation of toll-like receptor 2 signaling pathway 1
GO:0034138 toll-like receptor 3 signaling pathway 1
GO:0034142 toll-like receptor 4 signaling pathway 1
GO:0034144 negative regulation of toll-like receptor 4 signaling pathway 1
GO:0034146 toll-like receptor 5 signaling pathway 1
GO:0034162 toll-like receptor 9 signaling pathway 1
GO:0034166 toll-like receptor 10 signaling pathway 1
GO:0034383 low-density lipoprotein particle clearance 1
GO:0034446 substrate adhesion-dependent cell spreading 1
GO:0034605 cellular response to heat 1
GO:0035335 peptidyl-tyrosine dephosphorylation 1
GO:0035507 regulation of myosin-light-chain-phosphatase activity 1
GO:0035508 positive regulation of myosin-light-chain-phosphatase activity 1
GO:0035666 TRIF-dependent toll-like receptor signaling pathway 1
GO:0035791 platelet-derived growth factor receptor-beta signaling pathway 1
GO:0035924 cellular response to vascular endothelial growth factor stimulus 1
GO:0038083 peptidyl-tyrosine autophosphorylation 1
GO:0038094 Fc-gamma receptor signaling pathway 1
GO:0038123 toll-like receptor TLR1:TLR2 signaling pathway 1
GO:0038124 toll-like receptor TLR6:TLR2 signaling pathway 1
GO:0038178 complement component C5a signaling pathway 1
GO:0042102 positive regulation of T cell proliferation 1
GO:0042130 negative regulation of T cell proliferation 1
GO:0042147 retrograde transport, endosome to Golgi 1
GO:0042157 lipoprotein metabolic process 1
GO:0042256 mature ribosome assembly 1
GO:0042531 positive regulation of tyrosine phosphorylation of STAT protein 1
GO:0042590 antigen processing and presentation of exogenous peptide antigen via MHC class I 1
GO:0042632 cholesterol homeostasis 1
GO:0042742 defense response to bacterium 1
GO:0042789 mRNA transcription from RNA polymerase II promoter 1
GO:0042981 regulation of apoptotic process 1
GO:0043066 negative regulation of apoptotic process 1
GO:0043086 negative regulation of catalytic activity 1
GO:0043101 purine-containing compound salvage 1
GO:0043161 proteasomal ubiquitin-dependent protein catabolic process 1
GO:0043304 regulation of mast cell degranulation 1
GO:0043320 natural killer cell degranulation 1
GO:0043488 regulation of mRNA stability 1
GO:0043547 positive regulation of GTPase activity 1
GO:0043647 inositol phosphate metabolic process 1
GO:0043653 mitochondrial fragmentation involved in apoptotic process 1
GO:0043928 exonucleolytic nuclear-transcribed mRNA catabolic process involved in deadenylation-dependent decay 1
GO:0043966 histone H3 acetylation 1
GO:0043967 histone H4 acetylation 1
GO:0044267 cellular protein metabolic process 1
GO:0044319 wound healing, spreading of cells 1
GO:0044351 macropinocytosis 1
GO:0044794 positive regulation by host of viral process 1
GO:0044839 cell cycle G2/M phase transition 1
GO:0045056 transcytosis 1
GO:0045591 positive regulation of regulatory T cell differentiation 1
GO:0045646 regulation of erythrocyte differentiation 1
GO:0045724 positive regulation of flagellum assembly 1
GO:0045727 positive regulation of translation 1
GO:0045859 regulation of protein kinase activity 1
GO:0045944 positive regulation of transcription from RNA polymerase II promoter 1
GO:0046627 negative regulation of insulin receptor signaling pathway 1
GO:0048010 vascular endothelial growth factor receptor signaling pathway 1
GO:0048011 nerve growth factor receptor signaling pathway 1
GO:0050672 negative regulation of lymphocyte proliferation 1
GO:0050679 positive regulation of epithelial cell proliferation 1
GO:0050766 positive regulation of phagocytosis 1
GO:0050769 positive regulation of neurogenesis 1
GO:0050770 regulation of axonogenesis 1
GO:0050790 regulation of catalytic activity 1
GO:0050853 B cell receptor signaling pathway 1
GO:0050855 regulation of B cell receptor signaling pathway 1
GO:0050863 regulation of T cell activation 1
GO:0050868 negative regulation of T cell activation 1
GO:0050890 cognition 1
GO:0050904 diapedesis 1
GO:0050918 positive chemotaxis 1
GO:0051056 regulation of small GTPase mediated signal transduction 1
GO:0051084 'de novo' posttranslational protein folding 1
GO:0051096 positive regulation of helicase activity 1
GO:0051126 negative regulation of actin nucleation 1
GO:0051209 release of sequestered calcium ion into cytosol 1
GO:0051272 positive regulation of cellular component movement 1
GO:0051297 centrosome organization 1
GO:0051403 stress-activated MAPK cascade 1
GO:0051926 negative regulation of calcium ion transport 1
GO:0052652 cyclic purine nucleotide metabolic process 1
GO:0055086 nucleobase-containing small molecule metabolic process 1
GO:0060161 positive regulation of dopamine receptor signaling pathway 1
GO:0060326 cell chemotaxis 1
GO:0060333 interferon-gamma-mediated signaling pathway 1
GO:0060334 regulation of interferon-gamma-mediated signaling pathway 1
GO:0060337 type I interferon-mediated signaling pathway 1
GO:0060338 regulation of type I interferon-mediated signaling pathway 1
GO:0061001 regulation of dendritic spine morphogenesis 1
GO:0061077 chaperone-mediated protein folding 1
GO:0061098 positive regulation of protein tyrosine kinase activity 1
GO:0061136 regulation of proteasomal protein catabolic process 1
GO:0070304 positive regulation of stress-activated protein kinase signaling cascade 1
GO:0070372 regulation of ERK1 and ERK2 cascade 1
GO:0070374 positive regulation of ERK1 and ERK2 cascade 1
GO:0070508 cholesterol import 1
GO:0070667 negative regulation of mast cell proliferation 1
GO:0070668 positive regulation of mast cell proliferation 1
GO:0070935 3'-UTR-mediated mRNA stabilization 1
GO:0071222 cellular response to lipopolysaccharide 1
GO:0071300 cellular response to retinoic acid 1
GO:0071375 cellular response to peptide hormone stimulus 1
GO:0072011 glomerular endothelium development 1
GO:0090025 regulation of monocyte chemotaxis 1
GO:0090118 receptor-mediated endocytosis of low-density lipoprotein particle involved in cholesterol transport 1
GO:0090141 positive regulation of mitochondrial fission 1
GO:0090330 regulation of platelet aggregation 1
GO:0097009 energy homeostasis 1
GO:0097028 dendritic cell differentiation 1
GO:0097485 neuron projection guidance 1
GO:0099074 mitochondrion to lysosome transport 1
GO:0099639 neurotransmitter receptor transport, endosome to plasma membrane 1
GO:1900034 regulation of cellular response to heat 1
GO:1902202 regulation of hepatocyte growth factor receptor signaling pathway 1
GO:1902532 negative regulation of intracellular signal transduction 1
GO:1902823 negative regulation of late endosome to lysosome transport 1
GO:1902950 regulation of dendritic spine maintenance 1
GO:1903140 regulation of establishment of endothelial barrier 1
GO:1903259 exon-exon junction complex disassembly 1
GO:1903364 positive regulation of cellular protein catabolic process 1
GO:1903506 regulation of nucleic acid-templated transcription 1
GO:1903896 positive regulation of IRE1-mediated unfolded protein response 1
GO:1903898 negative regulation of PERK-mediated unfolded protein response 1
GO:1990126 retrograde transport, endosome to plasma membrane 1
GO:1990264 peptidyl-tyrosine dephosphorylation involved in inactivation of protein kinase activity 1
GO:2000331 regulation of terminal button organization 1
GO:2000646 positive regulation of receptor catabolic process 1
GO:2000670 positive regulation of dendritic cell apoptotic process 1
GO:2001198 regulation of dendritic cell differentiation 1