http://www.reactome.org/bio... | rdf:type | biopax3:BiochemicalReaction | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:comment | Edited: Jassal, B, 2006-01-18 10:19:52 | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:comment | Reviewed: Heldin, CH, 2006-04-18 14:26:12 | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:comment | Reviewed: Huang, Tao, 2012-05-14 | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:comment | Authored: Heldin, CH, Moustakas, A, Huminiecki, L, Jassal, B, 2006-02-02 | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:comment | Edited: Jassal, B, 2012-04-10 | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:comment | The phosphorylated C-terminal tail of R-SMAD induces a conformational change in the MH2 domain (Qin et al. 2001, Chacko et al. 2004), which now acquires high affinity towards Co-SMAD i.e. SMAD4 (common mediator of signal transduction in TGF-beta/BMP signaling). The R-SMAD:Co-SMAD complex (Nakao et al. 1997) most likely is a trimer of two R-SMADs with one Co-SMAD (Kawabata et al. 1998). It is important to note that the Co-SMAD itself cannot be phosphorylated as it lacks the C-terminal serine motif. | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:xref | urn:biopax:UnificationXref:... | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:xref | urn:biopax:UnificationXref:... | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:xref | http://identifiers.org/pubm... | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:xref | http://identifiers.org/pubm... | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:xref | http://identifiers.org/pubm... | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:xref | http://identifiers.org/pubm... | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:dataSource | urn:biopax:Provenance:react... | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:dataSource | http://www.reactome.org/bio... | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:displayName | Phosphorylated SMAD2 and SMAD3 form a complex with SMAD4 | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:left | http://www.reactome.org/bio... | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:left | http://www.reactome.org/bio... | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:participantStoichio... | http://www.reactome.org/bio... | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:right | http://www.reactome.org/bio... | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:stepProcess | http://www.reactome.org/bio... | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:pathwayComponent | http://www.reactome.org/bio... | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:pathwayComponent | http://www.reactome.org/bio... | lld:biopax3 |
http://www.reactome.org/bio... | biopax3:pathwayComponent | http://www.reactome.org/bio... | lld:biopax3 |