PRMT5 and SUPT5H

  • Number of citations of the paper that reports this interaction (PMID 12718890)
  • 70
  • Data Source:
  • HPRD (in vivo, in vitro)

PRMT5

SUPT5H

Gene Name protein arginine methyltransferase 5 suppressor of Ty 5 homolog (S. cerevisiae)
Image
Gene Ontology Annotations Cellular Component
Molecular Function
Biological Process
Pathways
Drugs
Diseases
GWAS
Protein-Protein Interactions 67 interactors: ARGLU1 CALU CAPN1 CCAR2 CDYL2 CLK1 CLK3 CLNS1A COPRS CTDP1 DIO3 DNMT3A EZH2 FAM76B GRHL3 GTPBP2 H3F3C HIST1H3A HIST1H4A HIST2H2AC HOXC4 ING5 JAK1 JAK2 JAK3 LDHAL6B LENG8 LUC7L MAGEB2 MBP MCRS1 MEF2D MYOD1 MYOG NELFCD NUDCD2 OLA1 PHYHIP PRPF38A RBM23 RSRP1 SF3A3 SIN3A SLU7 SMARCA2 SMARCB1 SMARCC1 SMARCE1 SNRNP70 SNRPB SNRPD1 SNRPD3 SPAG8 SSTR1 SUPT5H TRIB3 TYK2 WDR5 WDR77 YWHAG YWHAQ YWHAZ ZDHHC17 ZNF2 ZNF224 ZNF436 ZUFSP 37 interactors: C9orf78 CCNH CCNT1 CCNT2 CDK7 CDK9 CSNK2A1 DBN1 DCAF6 GTF3C1 H2AFX HTATSF1 IK IKBKG LMAN2 MAML3 MNAT1 PCBD1 PHYHIP PIN1 PNO1 POLR2A PPIA PPP2R2D PRMT1 PRMT5 SAP30BP SIK1 SNX4 SSBP3 SUPT4H1 TERF1 XRCC5 ZBTB3 ZFYVE9 ZNF496 ZNF512B
Entrez ID 10419 6829
HPRD ID 04955 03655
Ensembl ID ENSG00000100462 ENSG00000196235
Uniprot IDs O14744 O00267
PDB IDs 4GQB 2DO3 2E6Z 2E70 3H7H 4L1U
Enriched GO Terms of Interacting Partners?
Tagcloud ?
acquisition  af9  arginine  biomedical  bypassing  cooperates  critically  drive  drivers  forming  inactivating  inherent  lymphomagenesis  lymphomas  mll  modulator  neoplastic  notch1  oncogenic  overt  relevance  renewal  revealing  selectively  specimen  supporting  suppresses  sustaining  transferase 
19q13  aa  acidic  argues  consensus  differ  end  family  homologue  lacks  like  map  maps  member  near  q  repeat  respond  ryanodine  seven  signals  similarity  spt5  spt6  terminus  unlike  w  yeast 
Tagcloud (Difference) ?
acquisition  af9  arginine  biomedical  bypassing  cooperates  critically  drive  drivers  forming  inactivating  inherent  lymphomagenesis  lymphomas  mll  modulator  neoplastic  notch1  oncogenic  overt  relevance  renewal  revealing  selectively  specimen  supporting  suppresses  sustaining  transferase 
19q13  aa  acidic  argues  consensus  differ  end  family  homologue  lacks  like  map  maps  member  near  q  repeat  respond  ryanodine  seven  signals  similarity  spt5  spt6  terminus  unlike  w  yeast 
Tagcloud (Intersection) ?