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IID00120
 UniprotQ8IUQ4
ProteinE3 ubiquitin-protein ligase SIAH1
GeneSIAH1
OrganismHomo sapiens
Sequence LLPS PhaSepDB
PhaSePro
LLPSDB
DrLLPS
 Network xml rdf
Structure
Experiment
  :order   disorder   conflict   PDB cluster   ProS   Pfam Domain   SEG
282
 order/disorder by at least rule
     disorder by at least rule
     order by at least rule
 order/disorder by majority rule
Seq 90-282 Hetero tetramer : IID00125Complex
 Evidence X-RAY 2a25 A Reference
       Region 2a25 A 90-124 disorder
       Region 2a25 A 125-131 order
       Region 2a25 A 132-133 disorder
       Region 2a25 A 134-171 order
       Region 2a25 A 172-175 disorder
       Region 2a25 A 176-196 order
       Region 2a25 A 197-202 disorder
       Region 2a25 A 203-282 order
Seq 90-282 Hetero dimer : IID50260Complex
 Evidence X-RAY 4i7d C Reference
       Region 4i7d C 90-91 disorder
       Region 4i7d C 92-198 order
       Region 4i7d C 199-200 disorder
       Region 4i7d C 201-282 order
 Evidence X-RAY 4i7d A Reference
       Region 4i7d A 90-90 disorder
       Region 4i7d A 91-197 order
       Region 4i7d A 198-202 disorder
       Region 4i7d A 203-282 order
 Evidence X-RAY 4i7c C Reference
       Region 4i7c C 90-90 disorder
       Region 4i7c C 91-198 order
       Region 4i7c C 199-200 disorder
       Region 4i7c C 201-282 order
 Evidence X-RAY 4i7c A Reference
       Region 4i7c A 90-90 disorder
       Region 4i7c A 91-198 order
       Region 4i7c A 199-202 disorder
       Region 4i7c A 203-282 order
 Evidence X-RAY 4i7b C Reference
       Region 4i7b C 90-93 disorder
       Region 4i7b C 94-197 order
       Region 4i7b C 198-199 disorder
       Region 4i7b C 200-282 order
 Evidence X-RAY 4i7b A Reference
       Region 4i7b A 90-90 disorder
       Region 4i7b A 91-197 order
       Region 4i7b A 198-200 disorder
       Region 4i7b A 201-282 order
Seq 91-282 Homo dimer :
 Evidence X-RAY 4ca1 B Reference
       Region 4ca1 B 91-197 order
       Region 4ca1 B 198-199 disorder
       Region 4ca1 B 200-282 order
 Evidence X-RAY 4ca1 A Reference
       Region 4ca1 A 91-198 order
       Region 4ca1 A 199-201 disorder
       Region 4ca1 A 202-282 order
 Evidence X-RAY 4c9z B Reference
       Region 4c9z B 91-94 disorder
       Region 4c9z B 95-282 order
 Evidence X-RAY 4c9z A Reference
       Region 4c9z A 91-282 order
Seq 91-282 Hetero dimer : O94966
 Evidence X-RAY 4x3g B Reference
       Region 4x3g B 91-92 disorder
       Region 4x3g B 93-282 order
 Evidence X-RAY 4x3g A Reference
       Region 4x3g A 91-131 order
       Region 4x3g A 132-132 disorder
       Region 4x3g A 133-199 order
       Region 4x3g A 200-202 disorder
       Region 4x3g A 203-282 order
Seq 93-282 Hetero dimer : IID00007Complex
 Evidence X-RAY 5wzz D Reference
       Region 5wzz D 93-282 order
 Evidence X-RAY 5wzz C Reference
       Region 5wzz C 93-282 order
 Evidence X-RAY 5wzz B Reference
       Region 5wzz B 93-282 order
 Evidence X-RAY 5wzz A Reference
       Region 5wzz A 93-282 order
Seqphosphorylation
    19-19 Phosphoserine; by ATM and ATR
 
Prediction
NeProc
Disorder 1-34
Order 35-282
AlphaFold
Disorder 1-30,133-133
Order 31-132,134-282
Pfam Hmmer
PF03145 82-278 3.3e-141
Function
Function in SwissProt
E3 ubiquitin-protein ligase that mediates ubiquitination and subsequent proteasomal degradation of target proteins (PubMed:14506261, PubMed:14645235, PubMed:14654780, PubMed:15064394, PubMed:16085652, PubMed:19224863, PubMed:20508617, PubMed:22483617, PubMed:9334332, PubMed:9858595). E3 ubiquitin ligases accept ubiquitin from an E2 ubiquitin-conjugating enzyme in the form of a thioester and then directly transfers the ubiquitin to targeted substrates (PubMed:14506261, PubMed:14645235, PubMed:14654780, PubMed:15064394, PubMed:16085652, PubMed:19224863, PubMed:20508617, PubMed:22483617, PubMed:9334332, PubMed:9858595). Mediates E3 ubiquitin ligase activity either through direct binding to substrates or by functioning as the essential RING domain subunit of larger E3 complexes (PubMed:14506261, PubMed:14645235, PubMed:14654780, PubMed:15064394, PubMed:16085652, PubMed:19224863, PubMed:20508617, PubMed:22483617, PubMed:9334332, PubMed:9858595). Triggers the ubiquitin-mediated degradation of many substrates, including proteins involved in transcription regulation (ELL2, MYB, POU2AF1, PML and RBBP8), a cell surface receptor (DCC), the cell-surface receptor-type tyrosine kinase FLT3, the cytoplasmic signal transduction molecules (KLF10/TIEG1 and NUMB), an antiapoptotic protein (BAG1), a microtubule motor protein (KIF22), a protein involved in synaptic vesicle function in neurons (SYP), a structural protein (CTNNB1) and SNCAIP (PubMed:10747903, PubMed:11146551, PubMed:11389839, PubMed:11389840, PubMed:11483517, PubMed:11483518, PubMed:11752454, PubMed:12072443). Confers constitutive instability to HIPK2 through proteasomal degradation (PubMed:18536714). It is thereby involved in many cellular processes such as apoptosis, tumor suppression, cell cycle, axon guidance, transcription regulation, spermatogenesis and TNF-alpha signaling (PubMed:14506261, PubMed:14645235, PubMed:14654780, PubMed:15064394, PubMed:16085652, PubMed:19224863, PubMed:20508617, PubMed:22483617, PubMed:9334332, PubMed:9858595). Has some overlapping function with SIAH2 (PubMed:14506261, PubMed:14645235, PubMed:14654780, PubMed:15064394, PubMed:16085652, PubMed:19224863, PubMed:20508617, PubMed:22483617, PubMed:9334332, PubMed:9858595). Induces apoptosis in cooperation with PEG3 (By similarity). Upon nitric oxid (NO) generation that follows apoptotic stimulation, interacts with S-nitrosylated GAPDH, mediating the translocation of GAPDH to the nucleus (By similarity). GAPDH acts as a stabilizer of SIAH1, facilitating the degradation of nuclear proteins (By similarity). Mediates ubiquitination and degradation of EGLN2 and EGLN3 in response to the unfolded protein response (UPR), leading to their degradation and subsequent stabilization of ATF4 (By similarity).