Gene interactions and pathways from curated databases and text-mining

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IRF1 — IRF7

Pathways - manually collected, often from reviews:

  • BioCarta the information processing pathway at the ifn beta enhancer: IFN-beta nucleosome complex (RELA-ATF2-IRF5_IRF1_IRF3_IRF6_IRF7_IRF4_IRF2-JUN-HMGB1-PCAF-CREBBP-SMARCA4-SMARCD1-ARID1A-SMARCC1-SMARCC2-SMARCB1-SMARCE1-ACTB) → RELA/p50/ATF-2/IRF/c-JUN/HMG1/PCAF/CBP/hSWI/SNF complex (RELA-ATF2-IRF5_IRF1_IRF3_IRF6_IRF7_IRF4_IRF2-JUN-HMGB1-PCAF-CREBBP-SMARCA4-SMARCD1-ARID1A-SMARCC1-SMARCC2-SMARCB1-SMARCE1-ACTB) (modification, collaborate)
  • BioCarta the information processing pathway at the ifn beta enhancer: RELA/p50/ATF-2/IRF/c-JUN/HMG1 complex (RELA-ATF2-IRF5_IRF1_IRF3_IRF6_IRF7_IRF4_IRF2-JUN-HMGB1) → IRF (IRF5/IRF1/IRF3/IRF6/IRF7/IRF4/IRF2) (modification, collaborate)
  • BioCarta the information processing pathway at the ifn beta enhancer: RELA/p50/ATF-2/IRF/c-JUN/HMG1 complex (RELA-ATF2-IRF5_IRF1_IRF3_IRF6_IRF7_IRF4_IRF2-JUN-HMGB1) → RELA/p50/ATF-2/IRF/c-JUN/HMG1/PCAF complex (ATF2-IRF5_IRF1_IRF3_IRF6_IRF7_IRF4_IRF2-JUN-HMGB1-PCAF) (modification, collaborate)
  • BioCarta the information processing pathway at the ifn beta enhancer: RELA/p50/ATF-2/IRF/c-JUN/HMG1/PCAF/CBP complex (RELA-ATF2-IRF5_IRF1_IRF3_IRF6_IRF7_IRF4_IRF2-JUN-HMGB1-PCAF-CREBBP) → RELA/p50/ATF-2/IRF/c-JUN/HMG1/PCAF complex (ATF2-IRF5_IRF1_IRF3_IRF6_IRF7_IRF4_IRF2-JUN-HMGB1-PCAF) (modification, collaborate)
  • BioCarta the information processing pathway at the ifn beta enhancer: RELA/p50/ATF-2/IRF/c-JUN/HMG1/PCAF/CBP complex (RELA-ATF2-IRF5_IRF1_IRF3_IRF6_IRF7_IRF4_IRF2-JUN-HMGB1-PCAF-CREBBP) → RELA/p50/ATF-2/IRF/c-JUN/HMG1/PCAF/CBP/hSWI/SNF complex (RELA-ATF2-IRF5_IRF1_IRF3_IRF6_IRF7_IRF4_IRF2-JUN-HMGB1-PCAF-CREBBP-SMARCA4-SMARCD1-ARID1A-SMARCC1-SMARCC2-SMARCB1-SMARCE1-ACTB) (modification, collaborate)
  • FastForward regulation: IRF1 → IRF7 (transcriptional regulation, unknown) Lu et al., J Biol Chem 2000*
    Evidence: PROMACTIVITY, DNABINDING

Protein-Protein interactions - manually collected from original source literature:

Studies that report less than 10 interactions are marked with *

Text-mined interactions from Literome

Xi et al., Oncogene 1999 (Pancreatic Neoplasms) : Here we report that the human CIITA Type IV promoter IRF-E binds IRF-1 and can be activated by exogenous expression of IRF-1
Xi et al., Mol Immunol 2003 : Off-rate experiments revealed that the IRF-2/IRF-E complex was more stable than the IRF-1/IRF-E complex and that the affinity of IRF-1 for the IRF-E was increased when IRF-1 co-occupied the IRF-E with IRF-2
Guo et al., J Immunol 2005 : IRF-2 constitutively binds to the two ISRE/IRF-E sites at the DRR, while IRF-1 and STAT1 are induced to bind to the two ISRE/IRF-E sites and the ISRE/IRF-E1, respectively, only after IFN-beta treatment
Pan et al., Zhongguo Shi Yan Xue Ye Xue Za Zhi 2010 (Leukemia, Promyelocytic, Acute) : It is concluded that during ATRA induced APL cell differentiation, IRF-1 is first upregulated by ATRA, and then IRF-1 increases the protein levels of IRF-9 and STAT2 with the downregulation of C/EBPalpha
Kondo et al., Hokkaido Igaku Zasshi 1996 (Leukemia...) : Functional analysis showed that IRF-BP inhibited DNA binding and transcriptional activity of IRF-1