Phosphatidylinositol signaling system - Homo sapiens (human) - Pathway Page
Name Phosphatidylinositol signaling system - Homo sapiens (human)
Resource KEGG
Genes SYNJ2 ITPK1 IMPA2 CALM3 INPP1 PLCD4 DGKQ PIK3R1 PLCB3 PPIP5K1 INPP5A PI4KB PLCB1 PIK3R2 IP6K1 INPPL1 PIP4K2A PLCZ1 DGKK PI4K2B PIP4K2B ITPKC DGKA PIK3R3 PIP5K1C PIK3C2A PIP5K1B MTMR8 IMPA1 DGKD PIKFYVE MTMR3 PIK3CB CALM2 PIP4P2 IP6K3 INPP5B ITPR1 PLCD1 PIP4K2C MTMR6 ITPR3 INPP5J SACM1L PLCG1 CDIPT PPIP5K2 INPP5F OCRL PLCG2 IPMK DGKZ DGKB PLCB2 MTMR4 INPP5E MTMR7 PLCB4 PIK3CA INPP4A PIP5K1A CALML5 ITPKB PLCD3 IMPAD1 DGKI ITPR2 PI4K2A DGKG MTMR2 INPP5D CALML6 CDS2 IPPK SYNJ1 DGKH PRKCB PLCE1 INPP4B PI4KA IP6K2 DGKE PIK3C3 PIK3C2G MTMR14 PIP4P1 ITPKA INPP5K MTM1 CALM1 CDS1 PTEN PIK3C2B CALML4 PRKCG PRKCA MTMR1 CALML3 PIK3CD
Size 99
Hierarchy Landscape

The following plot represents the hierarchical landscape of 'Phosphatidylinositol signaling system - Homo sapiens (human)'. The hierarchical tree allows to click on the pathways with children (black border) and continue the exploration. All nodes are colored by their source (click on the map for the legend) and cross-link to the original pathway page.

MetabolismAdipocytokine signaling pathwayAlanine, aspartate and glutamate metabolismAldosterone synthesis and secretionAmino sugar and nucleotide sugar metabolismAminoacyl-tRNA biosynthesisArginine and proline metabolismArginine biosynthesisAscorbate and aldarate metabolismBiosynthesis of amino acidsBiosynthesis of unsaturated fatty acidsButanoate metabolismCaffeine metabolismCarbon metabolismCholesterol metabolismCortisol synthesis and secretionCysteine and methionine metabolismD-Arginine and D-ornithine metabolismD-Glutamine and D-glutamate metabolismDrug metabolism - cytochrome P450Drug metabolism - other enzymesEther lipid metabolismFatty acid biosynthesisFatty acid degradationFatty acid elongationFatty acid metabolismFolate biosynthesisFructose and mannose metabolismGlycerolipid metabolismGlycerophospholipid metabolismGlycine, serine and threonine metabolismGlycolysis / GluconeogenesisGlycosaminoglycan biosynthesis - chondroitin sulfate / dermatan sulfateGlycosaminoglycan biosynthesis - heparan sulfate / heparinGlycosaminoglycan biosynthesis - keratan sulfateGlycosaminoglycan degradationGlyoxylate and dicarboxylate metabolismHistidine metabolismLinoleic acid metabolismLipoic acid metabolismNeomycin, kanamycin and gentamicin biosynthesisNicotinate and nicotinamide metabolismNitrogen metabolismOne carbon pool by folateOther glycan degradationOvarian steroidogenesisOxidative phosphorylationPantothenate and CoA biosynthesisPentose and glucuronate interconversionsPeroxisomePhenylalanine metabolismPhenylalanine, tyrosine and tryptophan biosynthesisPhosphatidylinositol signaling systemPhosphonate and phosphinate metabolismPorphyrin and chlorophyll metabolismPrimary bile acid biosynthesisPropanoate metabolismRetinol metabolismSelenocompound metabolismStarch and sucrose metabolismSteroid biosynthesisSteroid hormone biosynthesisSulfur metabolismSynthesis and degradation of ketone bodiesTaurine and hypotaurine metabolismTerpenoid backbone biosynthesisThermogenesisThiamine metabolismTyrosine metabolismUbiquinone and other terpenoid-quinone biosynthesisValine, leucine and isoleucine biosynthesisValine, leucine and isoleucine degradationVitamin B6 metabolismalpha-Linolenic acid metabolismbeta-Alanine metabolismAcetylcholine SynthesisAflatoxin B1 metabolismAlanine and aspartate metabolismAmino Acid metabolismAmino acid conjugation of benzoic acidArachidonate Epoxygenase / Epoxide HydrolaseArylamine metabolismBenzene metabolismBenzo(a)pyrene metabolismBiogenic Amine SynthesisBiosynthesis and regeneration of tetrahydrobiopterin (BH4) and catabolism of phenylalanine, including diseasesButyrate-induced histone acetylationCaffeine and Theobromine metabolismCholesterol BiosynthesisCocaine metabolismCodeine and Morphine MetabolismColchicine Metabolic PathwayComposition of Lipid ParticlesCori CycleDegradation pathway of sphingolipids, including diseasesDiclofenac Metabolic PathwayDopamine metabolismEicosanoid SynthesisEnergy MetabolismEstrogen metabolismFatty Acid Beta OxidationFatty Acid BiosynthesisFatty Acid Omega OxidationFelbamate MetabolismFluoropyrimidine ActivityFolate MetabolismGanglio Sphingolipid MetabolismGlobo Sphingolipid MetabolismGlucocorticoid and Mineralcorticoid MetabolismGlutathione metabolismGlycolysis and GluconeogenesisGut-Liver Indole MetabolismHIF1A and PPARG regulation of glycolysisHeroin metabolismIron metabolism in placentaKennedy pathway from SphingolipidsLidocaine metabolismMetabolism of Spingolipids in ER and Golgi apparatusMetabolism of Tetrahydrocannabinol (THC)Mitochondrial LC-Fatty Acid Beta-OxidationNAD Biosynthesis II (from tryptophan)NAD+ biosynthetic pathwaysNAD+ metabolismNicotine MetabolismNuclear Receptors in Lipid Metabolism and ToxicityOne Carbon MetabolismOne carbon donorOne carbon metabolism and related pathwaysPPAR Alpha PathwayPPAR signaling pathwayPeroxisomal beta-oxidation of tetracosanoyl-CoAPhase I biotransformations, non P450Polyol PathwayProstaglandin Synthesis and RegulationPyrimidine metabolismSelenium Metabolism and SelenoproteinsSteroid BiosynthesisSulfation Biotransformation ReactionTamoxifen metabolismTrans-sulfuration and one carbon metabolismTrans-sulfuration pathwayTryptophan catabolism leading to NAD+ productionTryptophan metabolismUrea cycle and metabolism of amino groupsValproic acid pathwayVitamin A and Carotenoid MetabolismVitamin B12 Metabolism
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Sub-Pathways

About

ComPath is developed and maintained in an academic capacity by Daniel Domingo-Fernández and Charles Tapley Hoyt at the Fraunhofer SCAI Department of Bioinformatics. This web application relies on data loaded from KEGG, Reactome, and WikiPathways Restful APIs, as well as MSigDB. More information here.