@prefix this: . @prefix sub: . @prefix beldoc: . @prefix rdfs: . @prefix rdf: . @prefix xsd: . @prefix dct: . @prefix dce: . @prefix pav: . @prefix np: . @prefix belv: . @prefix prov: . @prefix Protein: . @prefix hgnc: . @prefix geneProductOf: . @prefix species: . @prefix occursIn: . @prefix pubmed: . @prefix orcid: . sub:Head { this: np:hasAssertion sub:assertion; np:hasProvenance sub:provenance; np:hasPublicationInfo sub:pubinfo; a np:Nanopublication . } sub:assertion { sub:_1 geneProductOf: hgnc:11205; a Protein: . sub:_2 geneProductOf: hgnc:12680; a Protein: . sub:_3 occursIn: species:9606; rdf:object sub:_2; rdf:predicate belv:increases; rdf:subject sub:_1; a rdf:Statement . sub:assertion rdfs:label "p(HGNC:SP1) -> p(HGNC:VEGFA)" . } sub:provenance { beldoc: dce:description "Approximately 61,000 statements."; dce:rights "Copyright (c) 2011-2012, Selventa. All rights reserved."; dce:title "BEL Framework Large Corpus Document"; pav:authoredBy sub:_5; pav:version "1.4" . sub:_4 prov:value "IGF-1 receptor signaling when blocked with anti IGF-1R alpha neutralizing antibody, and when, either the 2.6 kb or the 0.35 kb VPF/VEGF reporter construct was transfected into AsPC-1 cells. The reporter activity of the 2.6 kb VPF/VEGF promoter showed a 50% decrease, and the 0.35kb VPF/VEGF promoter (mainly Sp1 binding sites) showed a 40% decrease compared with that of the IgG control. These results suggested that in AsPC-1 cells, the IGF-1 receptor signaling promotes VPF/VEGF expression mainly through transcriptional regulation, where the transcription factor Sp1 plays an important role."; prov:wasQuotedFrom pubmed:14604996 . sub:_5 rdfs:label "Selventa" . sub:assertion prov:hadPrimarySource pubmed:14604996; prov:wasDerivedFrom beldoc:, sub:_4 . } sub:pubinfo { this: dct:created "2014-07-03T14:30:18.224+02:00"^^xsd:dateTime; pav:createdBy orcid:0000-0001-6818-334X, orcid:0000-0002-1267-0234 . }