Human IRF-3 is activated through a two step phosphorylation ...
| created | [InstanceEdit:450323] Shamovsky, V, 2009-12-16 |
| dbId | 450284 |
| displayName | Human IRF-3 is activated through a two step phosphorylation ... |
| literatureReference |
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| modified | [InstanceEdit:2569086] Shamovsky, V, 2012-11-12 |
| schemaClass | Summation |
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Human IRF-3 is activated through a two step phosphorylation in the C-terminal domain mediated by TBK1 and/or IKK-i. It requires Ser386 and/or Ser385 (site 1) and a cluster of serine/threonine residues between Ser396 and Ser405 (site 2) [Panne et al 2007]. Phosphorylated residues at site 2 alleviate autoinhibition to allow interaction with CBP (CREB-binding protein) and facilitate phosphorylation at site 1. Phosphorylation at site 1 is required for IRF-3 dimerization. IRF-3 and IRF-7 transcription factors possess distinct structural characteristics; IRF-7 is phosphorylated on Ser477 and Ser479 residues [Lin R et al 2000]. TRAF6 mediated ubiquitination of IRF7 is also required and essential for IRF7 phosphorylation and activation. The K-63 linked ubiquitination occurs on the last three C-terminal lysine sites (positions 444, 446, and 452) of human IRF7 independently of its C-terminal functional phosphorylation sites.[Ning et al 2008]. |
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