-
Notifications
You must be signed in to change notification settings - Fork 6
/
knetwork_model.json
1 lines (1 loc) · 65.5 KB
/
knetwork_model.json
1
{"metaData":{"name":"myKnetwork.json", "dateCreated":"05/12/2019 15:21", "numNodes":7, "numEdges":6, "speciesTaxid":"3702", "speciesName":"Wheat", "dbVersion":45, "dbDateCreated":"05/12/2019 11:05", "sourceOrganization":"Rothamsted", "provider":"KnetMiner"}, "graph":{"graphJSON":{"elements":{"nodes":[{"data":{"annotation":"","conceptBorderColor":"navy","conceptType":"Gene","pid":"TRAES_5AL_09FA54D72","conceptSize":"26px","displayValue":"TRAES_5AL_09FA54D72","conceptTextBGopacity":"0","conceptDisplay":"element","conceptColor":"lightBlue","conceptBorderStyle":"double","conceptBorderWidth":"3px","flagged":"true","id":"1","value":"TRAES_5AL_09FA54D72","conceptShape":"triangle","conceptTextBGcolor":"black"},"position":{"x":-209.36537348812564,"y":102.82875784376341},"group":"nodes","removed":false,"selected":false,"selectable":true,"locked":false,"grabbed":false,"grabbable":true,"classes":"ShowEle LabelOn FlaggedGene"},{"data":{"annotation":"","conceptBorderColor":"black","conceptType":"Protein","pid":"TRAES_5AL_09FA54D72.2","conceptSize":"22px","displayValue":"TRAES_5AL_09FA54D72.2","conceptTextBGopacity":"0","conceptDisplay":"element","conceptColor":"red","conceptBorderStyle":"solid","conceptBorderWidth":"1px","flagged":"false","id":"2","value":"TRAES_5AL_09FA54D72.2","conceptShape":"ellipse","conceptTextBGcolor":"black"},"position":{"x":-82.57436204425551,"y":132.73744601919813},"group":"nodes","removed":false,"selected":false,"selectable":true,"locked":false,"grabbed":false,"grabbable":true,"classes":"ShowEle LabelOff BlurNode"},{"data":{"annotation":"Created: 2005-05-10; Modified: 2014-05-14; Version: 87","conceptBorderColor":"black","conceptType":"Protein","pid":"AT3G44110.1;Q94AW8","conceptSize":"22px","displayValue":"AT3G44110","conceptTextBGopacity":"0","conceptDisplay":"element","conceptColor":"red","conceptBorderStyle":"solid","conceptBorderWidth":"1px","flagged":"false","id":"9","value":"AT3G44110","conceptShape":"ellipse","conceptTextBGcolor":"black"},"position":{"x":20.325499802270624,"y":52.630992439279915},"group":"nodes","removed":false,"selected":false,"selectable":true,"locked":false,"grabbed":false,"grabbable":true,"classes":"ShowEle LabelOff"},{"data":{"annotation":"","conceptBorderColor":"black","conceptType":"Gene","pid":"AT3G44110;locus: 2081378","conceptSize":"22px","displayValue":"J3","conceptTextBGopacity":"0","conceptDisplay":"element","conceptColor":"lightBlue","conceptBorderStyle":"solid","conceptBorderWidth":"1px","flagged":"false","id":"23","value":"J3","conceptShape":"triangle","conceptTextBGcolor":"black"},"position":{"x":71.508401983713,"y":-67.37957008615685},"group":"nodes","removed":false,"selected":false,"selectable":true,"locked":false,"grabbed":false,"grabbable":true,"classes":"ShowEle LabelOff BlurNode"},{"data":{"annotation":"","conceptBorderColor":"black","conceptType":"Gene","pid":"AT3G48100;locus: 2097870","conceptSize":"22px","displayValue":"RR5","conceptTextBGopacity":"0","conceptDisplay":"element","conceptColor":"lightBlue","conceptBorderStyle":"solid","conceptBorderWidth":"1px","flagged":"false","id":"59","value":"RR5","conceptShape":"triangle","conceptTextBGcolor":"black"},"position":{"x":79.5117204042908,"y":-197.68661088919413},"group":"nodes","removed":false,"selected":false,"selectable":true,"locked":false,"grabbed":false,"grabbable":true,"classes":"ShowEle LabelOff"},{"data":{"annotation":"Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). ( Reference: GOC: go_curators )","conceptBorderColor":"black","conceptType":"Molecular_Function","pid":"GO: 0005515","conceptSize":"18px","displayValue":"protein binding","conceptTextBGopacity":"0","conceptDisplay":"none","conceptColor":"purple","conceptBorderStyle":"solid","conceptBorderWidth":"1px","flagged":"false","id":"97","value":"protein binding","conceptShape":"pentagon","conceptTextBGcolor":"black"},"position":{"x":-17.54902107096982,"y":-284.74426238816943},"group":"nodes","removed":false,"selected":false,"selectable":true,"locked":false,"grabbed":false,"grabbable":true,"classes":"LabelOff ShowEle"},{"data":{"annotation":"Responds to a phosphorelay sensor to initiate a change in cell state or activity. The activity of the response regulator is regulated by transfer of a phosphate from a histidine residue in the sensor, to an aspartate residue in the response regulator. Many but not all response regulators act as transcriptional regulators to elicit a response. ( Reference: GOC: bf PMID: 10966457 PMID: 11842140 )","conceptBorderColor":"black","conceptType":"Molecular_Function","pid":"GO: 0000156","conceptSize":"18px","displayValue":"GO: 0000156","conceptTextBGopacity":"0","conceptDisplay":"none","conceptColor":"purple","conceptBorderStyle":"solid","conceptBorderWidth":"1px","flagged":"false","id":"111","value":"phosphorelay response regulator activity","conceptShape":"pentagon","conceptTextBGcolor":"black"},"position":{"x":202.31431751459306,"y":-241.37939156709183},"group":"nodes","removed":false,"selected":true,"selectable":true,"locked":false,"grabbed":false,"grabbable":true,"classes":"LabelOff ShowEle"}],"edges":[{"data":{"relationDisplay":"element","relationSize":"3px","id":"e26","source":"23","label":"encodes","relationColor":"grey","target":"9"},"position":{},"group":"edges","removed":false,"selected":false,"selectable":true,"locked":false,"grabbed":false,"grabbable":true,"classes":"ShowEle LabelOff"},{"data":{"relationDisplay":"element","relationSize":"3px","id":"e350","source":"59","label":"interacts_with","relationColor":"steelBlue","target":"23"},"position":{},"group":"edges","removed":false,"selected":false,"selectable":true,"locked":false,"grabbed":false,"grabbable":true,"classes":"ShowEle LabelOff"},{"data":{"relationDisplay":"none","relationSize":"1px","id":"e524","source":"59","label":"has_function","relationColor":"purple","target":"97"},"position":{},"group":"edges","removed":false,"selected":false,"selectable":true,"locked":false,"grabbed":false,"grabbable":true,"classes":"LabelOff ShowEle"},{"data":{"relationDisplay":"none","relationSize":"1px","id":"e525","source":"59","label":"has_function","relationColor":"purple","target":"111"},"position":{},"group":"edges","removed":false,"selected":false,"selectable":true,"locked":false,"grabbed":false,"grabbable":true,"classes":"LabelOff ShowEle"},{"data":{"relationDisplay":"element","relationSize":"3px","id":"e571","source":"1","label":"encodes","relationColor":"grey","target":"2"},"position":{},"group":"edges","removed":false,"selected":false,"selectable":true,"locked":false,"grabbed":false,"grabbable":true,"classes":"ShowEle LabelOff"},{"data":{"relationDisplay":"element","relationSize":"3px","id":"e582","source":"2","label":"orthologue","relationColor":"red","target":"9"},"position":{},"group":"edges","removed":false,"selected":false,"selectable":true,"locked":false,"grabbed":false,"grabbable":true,"classes":"ShowEle LabelOff"}]},"style":[{"selector":"node","style":{"content":"data(displayValue)","text-opacity":"0","text-background-color":"data(conceptTextBGcolor)","text-background-opacity":"data(conceptTextBGopacity)","text-wrap":"wrap","font-size":"16px","display":"data(conceptDisplay)","height":"data(conceptSize)","width":"data(conceptSize)","shape":"data(conceptShape)","background-color":"data(conceptColor)","border-color":"data(conceptBorderColor)","border-width":"data(conceptBorderWidth)","border-style":"data(conceptBorderStyle)"}},{"selector":"edge","style":{"content":"data(label)","text-opacity":"0","font-size":"16px","display":"data(relationDisplay)","width":"data(relationSize)","line-style":"solid","line-color":"data(relationColor)","control-point-step-size":"10px","control-point-distance":"20px","curve-style":"unbundled-bezier","target-arrow-shape":"triangle","target-arrow-color":"gray"}},{"selector":".highlighted","style":{"transition-property":"background-color, line-color, target-arrow-color","transition-duration":"0.5s","background-color":"#61bffc","line-color":"#61bffc","target-arrow-color":"#61bffc"}},{"selector":":selected","style":{"border-color":"#CCCC33","border-width":"4px"}},{"selector":".BlurNode","style":{"shadow-blur":"25px","shadow-color":"black","shadow-opacity":"0.9"}},{"selector":".HideEle","style":{"display":"none"}},{"selector":".ShowEle","style":{"display":"element"}},{"selector":".LabelOn","style":{"text-opacity":"1"}},{"selector":".LabelOff","style":{"text-opacity":"0"}},{"selector":".FlaggedGene","style":{"text-background-color":"#FFFF00","text-background-opacity":"1"}}],"zoomingEnabled":true,"userZoomingEnabled":true,"zoom":1.0122576360739535,"minZoom":1e-50,"maxZoom":1e+50,"panningEnabled":true,"userPanningEnabled":true,"pan":{"x":740.4326377697648,"y":391.06428288333495},"boxSelectionEnabled":false,"layout":{"name":"preset"},"renderer":{"name":"canvas"},"textureOnViewport":false,"wheelSensitivity":0.05,"motionBlur":true}, "allGraphData":{"ondexmetadata":{"concepts":[{"annotation":"","conames":[{"name":"TRAES_5AL_09FA54D72","isPreferred":"true"}],"elementOf":"ENSEMBL","description":"protein_coding","pid":"TRAES_5AL_09FA54D72","attributes":[{"attrname":"visible","value":"true"},{"attrname":"flagged","value":"true"},{"attrname":"Contig","value":"5AL_2704086"},{"attrname":"size","value":"70"},{"attrname":"TAXID","value":"4565"},{"attrname":"Chromosome","value":"5"},{"attrname":"cM","value":"48.09"},{"attrname":"END","value":"2946"},{"attrname":"BEGIN","value":"557"},{"attrname":"Location","value":"5A"}],"id":"1","contexts":{},"evidences":["Imported from database"],"value":"TRAES_5AL_09FA54D72","ofType":"Gene","coaccessions":[{"elementOf":"IWGSC","accession":"TRAES_5AL_09FA54D72"}]},{"annotation":"","conames":[{"name":"TRAES_5AL_09FA54D72.2","isPreferred":"false"}],"elementOf":"ENSEMBL","description":"","pid":"TRAES_5AL_09FA54D72.2","attributes":[{"attrname":"AA","value":"MGGGGGGGVDPFDIFSSFFGPSFGGGGGGSSRGRRQRRGEDVVHPLKASLEDLYNGTSKKLSLSRSVLCSKCKGKGSKSGASMRCPGCQGSGMKVTIRQLGPSMIQQMQQACNDCKGTGESINDKDRCPGCKGEKVLQEKKVLEVHVEKGMQHNQKITFPGEADEAPDTVTGDIVFVVQQKEHPKFKRKGDDLFYEHTISLTEALCGFQLVLTHLDNRQLLIKSNPGEIVKPDSFKAISDEGMPMYQRPFMKGKLYIHFTVEFPDSLAPDQCKALEAVLPPKPASKLTDMELDECEETTMHDVNMEEEMRRKAHAAAQEAYDEDDEMPGGGAQRVQCAQQ"},{"attrname":"visible","value":"true"},{"attrname":"size","value":"30"},{"attrname":"TAXID","value":"4565"}],"id":"2","contexts":{},"evidences":["Imported from database"],"value":"TRAES_5AL_09FA54D72.2","ofType":"Protein","coaccessions":[{"elementOf":"IWGSC","accession":"TRAES_5AL_09FA54D72.2"}]},{"annotation":"Created: 2005-05-10; Modified: 2014-05-14; Version: 87","conames":[{"name":"A3","isPreferred":"false"},{"name":"ATJ3","isPreferred":"false"},{"name":"AtJ3","isPreferred":"false"},{"name":"AT3G44110","isPreferred":"true"},{"name":"AtDjA3","isPreferred":"false"},{"name":"ATJ","isPreferred":"false"},{"name":"J3","isPreferred":"false"},{"name":"Chaperone protein dnaJ 3","isPreferred":"true"}],"elementOf":"PHYTOZOME: TAIR: UNIPROTKB-SwissProt","description":"","pid":"AT3G44110.1;Q94AW8","attributes":[{"attrname":"AA","value":"MFGRGPSKKSDNTKFYEILGVPKSASPEDLKKAYKKAAIKNHPDKGGDPEKFKELAQAYEVLSDPEKREIYDQYGEDALKEGMGGGGGGHDPFDIFSSFFGGGPFGGNTSRQRRQRRGEDVVHPLKVSLEDVYLGTMKKLSLSRNALCSKCNGKGSKSGASLKCGGCQGSGMKVSIRQLGPGMIQQMQHACNECKGTGETINDRDRCPQCKGDKVIPEKKVLEVNVEKGMQHSQKITFEGQADEAPDTVTGDIVFVLQQKEHPKFKRKGEDLFVEHTLSLTEALCGFQFVLTHLDGRSLLIKSNPGEVVKPDSYKAISDEGMPIYQRPFMKGKLYIHFTVEFPDSLSPDQTKALEAVLPKPSTAQLSDMEIDECEETTLHDVNIEDEMRRKAQAQREAYDDDDEDDDHPGGAQRVQCAQQ"},{"attrname":"visible","value":"true"},{"attrname":"size","value":"30"},{"attrname":"TAXID","value":"3702"}],"id":"9","contexts":{},"evidences":["Imported from database"],"value":"AT3G44110","ofType":"Protein","coaccessions":[{"elementOf":"EMBL","accession":"AAB86892.1"},{"elementOf":"IPRO","accession":"IPR012724"},{"elementOf":"UNIGENE","accession":"AT.24417"},{"elementOf":"EMBL","accession":"AAB49030.1"},{"elementOf":"EMBL","accession":"AAK59592.1"},{"elementOf":"EMBL","accession":"CP002686"},{"elementOf":"EMBL","accession":"CAB88419.1"},{"elementOf":"TAIR","accession":"AT3G44110.1"},{"elementOf":"EMBL","accession":"AF032883"},{"elementOf":"PFAM","accession":"PF00684"},{"elementOf":"PRINTS","accession":"PR00625"},{"elementOf":"EMBL","accession":"AY045655"},{"elementOf":"KEGG","accession":"ATH: AT3G44110"},{"elementOf":"UNIPROTKB","accession":"O22663"},{"elementOf":"ENSEMBL","accession":"AT3G44110"},{"elementOf":"IPRO","accession":"IPR008971"},{"elementOf":"EMBL","accession":"AY035087"},{"elementOf":"UNIGENE","accession":"AT.20860"},{"elementOf":"EMBL","accession":"AEE77863.1"},{"elementOf":"EMBL","accession":"AY088078"},{"elementOf":"PFAM","accession":"PF00226"},{"elementOf":"PROSITE","accession":"PS00636"},{"elementOf":"UNIPROTKB","accession":"Q42530"},{"elementOf":"PFAM","accession":"PF01556"},{"elementOf":"EMBL","accession":"U22340"},{"elementOf":"ENSEMBL","accession":"AT3G44110.1"},{"elementOf":"EMBL","accession":"AY113878"},{"elementOf":"PROSITE","accession":"PS51188"},{"elementOf":"IPRO","accession":"IPR018253"},{"elementOf":"NC_GE","accession":"823531"},{"elementOf":"IPRO","accession":"IPR001305"},{"elementOf":"IPRO","accession":"IPR001623"},{"elementOf":"EMBL","accession":"AAK74013.1"},{"elementOf":"LOCUSTAG","accession":"F26G5.60"},{"elementOf":"EMBL","accession":"AAM65624.1"},{"elementOf":"PROSITE","accession":"PS50076"},{"elementOf":"EMBL","accession":"AL353814"},{"elementOf":"UNIPROTKB","accession":"Q94AW8"},{"elementOf":"PIR","accession":"T49127"},{"elementOf":"TAIR","accession":"AT3G44110"},{"elementOf":"NC_NP","accession":"NP_189997.1"},{"elementOf":"IPRO","accession":"IPR002939"},{"elementOf":"PIR","accession":"S71199"},{"elementOf":"EMBL","accession":"AAM44926.1"}]},{"annotation":"","conames":[{"name":"F26G5.60","isPreferred":"false"},{"name":"DNAJ homologue 3","isPreferred":"false"},{"name":"ATJ3","isPreferred":"false"},{"name":"AT3G44110","isPreferred":"true"},{"name":"AT3G44110.1","isPreferred":"false"},{"name":"ATJ","isPreferred":"false"},{"name":"J3","isPreferred":"true"}],"elementOf":"PHYTOZOME: TAIR","description":"","pid":"AT3G44110;locus: 2081378","attributes":[{"attrname":"STR","value":"-"},{"attrname":"visible","value":"true"},{"attrname":"size","value":"30"},{"attrname":"TAXID","value":"3702"},{"attrname":"Chromosome","value":"3"},{"attrname":"END","value":"15871256"},{"attrname":"CitNum","value":"10"},{"attrname":"BEGIN","value":"15868794"}],"id":"23","contexts":{"context":{"id":25}},"evidences":["Imported from database"],"value":"J3","ofType":"Gene","coaccessions":[{"elementOf":"TAIR","accession":"AT3G44110.1"},{"elementOf":"TAIR","accession":"AT3G44110.2"},{"elementOf":"TAIR","accession":"locus: 2081378"},{"elementOf":"TAIR","accession":"AT3G44110"}]},{"annotation":"","conames":[{"name":"INDUCED BY CYTOKININ 6","isPreferred":"false"},{"name":"RR5","isPreferred":"true"},{"name":"response regulator 5","isPreferred":"false"},{"name":"ATRR2","isPreferred":"false"},{"name":"T17F15.30","isPreferred":"false"},{"name":"ARABIDOPSIS THALIANA RESPONSE REGULATOR 2","isPreferred":"false"},{"name":"AT3G48100","isPreferred":"true"},{"name":"ARR5","isPreferred":"false"},{"name":"IBC6","isPreferred":"false"}],"elementOf":"PHYTOZOME: TAIR","description":"","pid":"AT3G48100;locus: 2097870","attributes":[{"attrname":"STR","value":"-"},{"attrname":"visible","value":"true"},{"attrname":"size","value":"30"},{"attrname":"TAXID","value":"3702"},{"attrname":"Chromosome","value":"3"},{"attrname":"END","value":"17760874"},{"attrname":"CitNum","value":"71"},{"attrname":"BEGIN","value":"17758427"}],"id":"59","contexts":{"context":{"id":63}},"evidences":["Imported from database"],"value":"RR5","ofType":"Gene","coaccessions":[{"elementOf":"TAIR","accession":"AT3G48100"},{"elementOf":"TAIR","accession":"locus: 2097870"},{"elementOf":"TAIR","accession":"AT3G48100.1"}]},{"annotation":"Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). ( Reference: GOC: go_curators )","conames":[{"name":"alpha-2 macroglobulin receptor-associated protein","isPreferred":"false"},{"name":"protein amino acid binding","isPreferred":"true"},{"name":"protein degradation tagging","isPreferred":"false"},{"name":"GO: 0005515","isPreferred":"false"},{"name":"protein tagging","isPreferred":"false"},{"name":"protein folding chaperone","isPreferred":"false"},{"name":"protein binding","isPreferred":"true"}],"elementOf":"ENSEMBL: GO: TAIR: UNIPROTKB","description":"","pid":"GO: 0005515","attributes":[],"id":"97","contexts":{"context":{"id":110}},"evidences":["Imported from database"],"value":"protein binding","ofType":"Molecular_Function","coaccessions":[{"elementOf":"REAC","accession":"REACT_30571 \"FORMATION OF THE IGF: IGFBP-6 COMPLEX, DANIO RERIO\""},{"elementOf":"REAC","accession":"REACT_15355 \"FORMATION OF THE IGF: IGFBP-5: ALS COMPLEX, HOMO SAPIENS\""},{"elementOf":"REAC","accession":"REACT_15419 \"FORMATION OF THE IGF: IGFBP-2 COMPLEX, HOMO SAPIENS\""},{"elementOf":"REAC","accession":"REACT_90027 \"FORMATION OF THE IGF: IGFBP-2 COMPLEX, RATTUS NORVEGICUS\""},{"elementOf":"REAC","accession":"REACT_87652 \"FORMATION OF THE IGF: IGFBP-5: ALS COMPLEX, BOS TAURUS\""},{"elementOf":"REAC","accession":"REACT_93175 \"FORMATION OF THE IGF: IGFBP-1 COMPLEX, GALLUS GALLUS\""},{"elementOf":"REAC","accession":"REACT_83532 \"FORMATION OF THE IGF: IGFBP-2 COMPLEX, XENOPUS TROPICALIS\""},{"elementOf":"REAC","accession":"REACT_15541 \"TRAVERSAL OF THE CORTICAL ACTIN NETWORK AND DOCKING AT PLASMA MEMBRANE, HOMO SAPIENS\""},{"elementOf":"REAC","accession":"REACT_15417 \"FORMATION OF THE IGF: IGFBP-3: ALS COMPLEX, HOMO SAPIENS\""},{"elementOf":"REAC","accession":"REACT_101129 \"FORMATION OF THE IGF: IGFBP-3: ALS COMPLEX, RATTUS NORVEGICUS\""},{"elementOf":"REAC","accession":"REACT_85858 \"FORMATION OF THE IGF: IGFBP-2 COMPLEX, GALLUS GALLUS\""},{"elementOf":"REAC","accession":"REACT_93938 \"FORMATION OF THE IGF: IGFBP-5: ALS COMPLEX, RATTUS NORVEGICUS\""},{"elementOf":"REAC","accession":"REACT_102457 \"AN ANCHORING PROTEIN, SARA, RECRUITS SMAD2/3, CANIS FAMILIARIS\""},{"elementOf":"REAC","accession":"REACT_104599 \"TYPE II RECEPTOR RECRUITS TYPE I RECEPTOR, SUS SCROFA\""},{"elementOf":"REAC","accession":"REACT_32973 \"FORMATION OF THE IGF: IGFBP-1 COMPLEX, CANIS FAMILIARIS\""},{"elementOf":"REAC","accession":"REACT_91560 \"TYPE II RECEPTOR RECRUITS TYPE I RECEPTOR, CANIS FAMILIARIS\""},{"elementOf":"REAC","accession":"REACT_107402 \"FORMATION OF THE IGF: IGFBP-4 COMPLEX, MUS MUSCULUS\""},{"elementOf":"REAC","accession":"REACT_30672 \"FORMATION OF THE IGF: IGFBP-2 COMPLEX, TAENIOPYGIA GUTTATA\""},{"elementOf":"REAC","accession":"REACT_88138 \"FORMATION OF THE IGF: IGFBP-5: ALS COMPLEX, DANIO RERIO\""},{"elementOf":"REAC","accession":"REACT_31641 \"TYPE II RECEPTOR RECRUITS TYPE I RECEPTOR, DANIO RERIO\""},{"elementOf":"REAC","accession":"REACT_102084 \"FORMATION OF THE IGF: IGFBP-5: ALS COMPLEX, MUS MUSCULUS\""},{"elementOf":"REAC","accession":"REACT_105895 \"FORMATION OF THE IGF: IGFBP-4 COMPLEX, BOS TAURUS\""},{"elementOf":"GO","accession":"GO: 0005515"},{"elementOf":"REAC","accession":"REACT_90105 \"FORMATION OF THE IGF: IGFBP-1 COMPLEX, XENOPUS TROPICALIS\""},{"elementOf":"REAC","accession":"REACT_94808 \"FORMATION OF THE IGF: IGFBP-6 COMPLEX, MUS MUSCULUS\""},{"elementOf":"REAC","accession":"REACT_106168 \"FORMATION OF THE IGF: IGFBP-2 COMPLEX, BOS TAURUS\""},{"elementOf":"REAC","accession":"REACT_28794 \"FORMATION OF THE IGF: IGFBP-4 COMPLEX, SUS SCROFA\""},{"elementOf":"REAC","accession":"REACT_85975 \"AN ANCHORING PROTEIN, SARA, RECRUITS SMAD2/3, DANIO RERIO\""},{"elementOf":"REAC","accession":"REACT_83147 \"TYPE II RECEPTOR RECRUITS TYPE I RECEPTOR, RATTUS NORVEGICUS\""},{"elementOf":"REAC","accession":"REACT_15506 \"FORMATION OF THE IGF: IGFBP-6 COMPLEX, HOMO SAPIENS\""},{"elementOf":"REAC","accession":"REACT_6923 \"AN ANCHORING PROTEIN, SARA, RECRUITS SMAD2/3, HOMO SAPIENS\""},{"elementOf":"REAC","accession":"REACT_104029 \"FORMATION OF THE IGF: IGFBP-6 COMPLEX, BOS TAURUS\""},{"elementOf":"REAC","accession":"REACT_15325 \"FORMATION OF THE IGF: IGFBP-4 COMPLEX, HOMO SAPIENS\""},{"elementOf":"REAC","accession":"REACT_88223 \"FORMATION OF THE IGF: IGFBP-1 COMPLEX, SUS SCROFA\""},{"elementOf":"REAC","accession":"REACT_20539 \"TRAVERSAL OF THE CORTICAL ACTIN NETWORK., MUS MUSCULUS\""},{"elementOf":"REAC","accession":"REACT_98807 \"AN ANCHORING PROTEIN, SARA, RECRUITS SMAD2/3, BOS TAURUS\""},{"elementOf":"REAC","accession":"REACT_95241 \"FORMATION OF THE IGF: IGFBP-3: ALS COMPLEX, MUS MUSCULUS\""},{"elementOf":"REAC","accession":"REACT_100287 \"FORMATION OF THE IGF: IGFBP-4 COMPLEX, CANIS FAMILIARIS\""},{"elementOf":"REAC","accession":"REACT_80778 \"TYPE II RECEPTOR RECRUITS TYPE I RECEPTOR, MUS MUSCULUS\""},{"elementOf":"REAC","accession":"REACT_106189 \"FORMATION OF THE IGF: IGFBP-5: ALS COMPLEX, GALLUS GALLUS\""},{"elementOf":"REAC","accession":"REACT_110419 \"TYPE II RECEPTOR RECRUITS TYPE I RECEPTOR, BOS TAURUS\""},{"elementOf":"GO","accession":"GO: 0045308"},{"elementOf":"REAC","accession":"REACT_79634 \"FORMATION OF THE IGF: IGFBP-5: ALS COMPLEX, CANIS FAMILIARIS\""},{"elementOf":"REAC","accession":"REACT_109392 \"FORMATION OF THE IGF: IGFBP-3: ALS COMPLEX, GALLUS GALLUS\""},{"elementOf":"REAC","accession":"REACT_85250 \"FORMATION OF THE IGF: IGFBP-2 COMPLEX, CANIS FAMILIARIS\""},{"elementOf":"REAC","accession":"REACT_78466 \"FORMATION OF THE IGF: IGFBP-6 COMPLEX, CANIS FAMILIARIS\""},{"elementOf":"REAC","accession":"REACT_80470 \"FORMATION OF THE IGF: IGFBP-1 COMPLEX, RATTUS NORVEGICUS\""},{"elementOf":"REAC","accession":"REACT_94522 \"FORMATION OF THE IGF: IGFBP-5: ALS COMPLEX, TAENIOPYGIA GUTTATA\""},{"elementOf":"REAC","accession":"REACT_103972 \"TYPE II RECEPTOR RECRUITS TYPE I RECEPTOR, XENOPUS TROPICALIS\""},{"elementOf":"REAC","accession":"REACT_87187 \"AN ANCHORING PROTEIN, SARA, RECRUITS SMAD2/3, XENOPUS TROPICALIS\""},{"elementOf":"REAC","accession":"REACT_33135 \"AN ANCHORING PROTEIN, SARA, RECRUITS SMAD2/3, RATTUS NORVEGICUS\""},{"elementOf":"REAC","accession":"REACT_34719 \"FORMATION OF THE IGF: IGFBP-1 COMPLEX, DANIO RERIO\""},{"elementOf":"REAC","accession":"REACT_96236 \"FORMATION OF THE IGF: IGFBP-2 COMPLEX, MUS MUSCULUS\""},{"elementOf":"REAC","accession":"REACT_20509 \"EXOCYTOSIS OF INSULIN, MUS MUSCULUS\""},{"elementOf":"REAC","accession":"REACT_31648 \"AN ANCHORING PROTEIN, SARA, RECRUITS SMAD2/3, MUS MUSCULUS\""},{"elementOf":"REAC","accession":"REACT_96264 \"FORMATION OF THE IGF: IGFBP-2 COMPLEX, DANIO RERIO\""},{"elementOf":"REAC","accession":"REACT_110570 \"FORMATION OF THE IGF: IGFBP-3: ALS COMPLEX, SUS SCROFA\""},{"elementOf":"REAC","accession":"REACT_15321 \"FORMATION OF THE IGF: IGFBP-1 COMPLEX, HOMO SAPIENS\""},{"elementOf":"REAC","accession":"REACT_89261 \"FORMATION OF THE IGF: IGFBP-4 COMPLEX, TAENIOPYGIA GUTTATA\""},{"elementOf":"REAC","accession":"REACT_95561 \"FORMATION OF THE IGF: IGFBP-5: ALS COMPLEX, XENOPUS TROPICALIS\""},{"elementOf":"REAC","accession":"REACT_92029 \"FORMATION OF THE IGF: IGFBP-4 COMPLEX, RATTUS NORVEGICUS\""},{"elementOf":"REAC","accession":"REACT_88068 \"FORMATION OF THE IGF: IGFBP-3: ALS COMPLEX, CANIS FAMILIARIS\""},{"elementOf":"REAC","accession":"REACT_78382 \"FORMATION OF THE IGF: IGFBP-1 COMPLEX, MUS MUSCULUS\""},{"elementOf":"REAC","accession":"REACT_90666 \"AN ANCHORING PROTEIN, SARA, RECRUITS SMAD2/3, SUS SCROFA\""},{"elementOf":"REAC","accession":"REACT_31305 \"FORMATION OF THE IGF: IGFBP-3: ALS COMPLEX, TAENIOPYGIA GUTTATA\""},{"elementOf":"REAC","accession":"REACT_6945 \"TYPE II RECEPTOR RECRUITS TYPE I RECEPTOR, HOMO SAPIENS\""},{"elementOf":"REAC","accession":"REACT_95647 \"FORMATION OF THE IGF: IGFBP-3: ALS COMPLEX, BOS TAURUS\""},{"elementOf":"REAC","accession":"REACT_108283 \"FORMATION OF THE IGF: IGFBP-4 COMPLEX, XENOPUS TROPICALIS\""},{"elementOf":"REAC","accession":"REACT_105776 \"FORMATION OF THE IGF: IGFBP-3: ALS COMPLEX, DANIO RERIO\""},{"elementOf":"REAC","accession":"REACT_98028 \"FORMATION OF THE IGF: IGFBP-1 COMPLEX, TAENIOPYGIA GUTTATA\""},{"elementOf":"REAC","accession":"REACT_31537 \"FORMATION OF THE IGF: IGFBP-6 COMPLEX, RATTUS NORVEGICUS\""},{"elementOf":"REAC","accession":"REACT_83165 \"FORMATION OF THE IGF: IGFBP-5: ALS COMPLEX, SUS SCROFA\""},{"elementOf":"REAC","accession":"REACT_87374 \"FORMATION OF THE IGF: IGFBP-6 COMPLEX, SUS SCROFA\""}]},{"annotation":"Responds to a phosphorelay sensor to initiate a change in cell state or activity. The activity of the response regulator is regulated by transfer of a phosphate from a histidine residue in the sensor, to an aspartate residue in the response regulator. Many but not all response regulators act as transcriptional regulators to elicit a response. ( Reference: GOC: bf PMID: 10966457 PMID: 11842140 )","conames":[{"name":"two-component response regulator","isPreferred":"false"},{"name":"phosphorelay response regulator activity","isPreferred":"true"},{"name":"GO: 0000156","isPreferred":"false"}],"elementOf":"ENSEMBL: GO: TAIR: UNIPROTKB","description":"","pid":"GO: 0000156","attributes":[],"id":"111","contexts":{"context":{"id":92}},"evidences":["Imported from database"],"value":"phosphorelay response regulator activity","ofType":"Molecular_Function","coaccessions":[{"elementOf":"GO","accession":"GO: 0000156"}]}],"relations":[{"toConcept":"9","fromConcept":"23","attributes":[{"attrname":"visible","value":"true"},{"attrname":"size","value":"5"}],"id":"e26","contexts":{},"evidences":["Imported from database"],"ofType":"encodes"},{"toConcept":"23","fromConcept":"59","attributes":[{"attrname":"visible","value":"true"},{"attrname":"size","value":"5"},{"attrname":"PubMed","value":"18642946"}],"id":"e350","contexts":{},"evidences":["Imported from database","Y2H"],"ofType":"interacts_with"},{"toConcept":"97","fromConcept":"59","attributes":[{"attrname":"EVIDENCE","value":"[TAIR: Publication: 501719956, TAIR: Publication: 501727302, PMID: 18642946, PMID: 16965536]"}],"id":"e524","contexts":{"context":{"id":43}},"evidences":["Inferred from Physical Interaction"],"ofType":"has_function"},{"toConcept":"111","fromConcept":"59","attributes":[{"attrname":"EVIDENCE","value":"[PMID: 9607306, TAIR: Publication: 501723793, TAIR: Publication: 2577, TAIR: Communication: 1675000, PMID: 12068096, PMID: 18065689, TAIR: Publication: 501681565, PMID: 11574878, TAIR: Publication: 501680564]"}],"id":"e525","contexts":{"context":{"id":92}},"evidences":["Inferred from Sequence or Structural Similarity","Inferred from Mutant Phenotype"],"ofType":"has_function"},{"toConcept":"2","fromConcept":"1","attributes":[{"attrname":"visible","value":"true"},{"attrname":"size","value":"5"}],"id":"e571","contexts":{},"evidences":["Imported from database"],"ofType":"encodes"},{"toConcept":"9","fromConcept":"2","attributes":[{"attrname":"visible","value":"true"},{"attrname":"%Identity_Wheat","value":"66.0"},{"attrname":"%Identity_Arabidopsis","value":"81.0"},{"attrname":"size","value":"5"},{"attrname":"Homology_type","value":"ortholog_many2many"},{"attrname":"Orthology_confidence","value":"1.0"}],"id":"e582","contexts":{},"evidences":["EnsemblCompara","Imported from database"],"ofType":"orthologue"}]}}}, "image":"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"}