Search by PDG name  
   

 

CD6  
    


    
      Official symbol:  CD6
      Full name:  CD6 molecule
      Location:  11q12.2
      Also known as:  Tp120
      Entrez ID:  923
      Ensembl ID:  ENSG00000013725
      Summary:  This gene encodes a protein found on the outer membrane of T-lymphocytes as well as some other immune cells. The encoded protein contains three scavenger receptor cysteine-rich (SRCR) domains and a binding site for an activated leukocyte cell adhesion molecule. The gene product is important for continuation of T cell activation. This gene may be associated with susceptibility to multiple sclerosis (PMID: 19525953, 21849685). Multiple transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Dec 2011]

    

    
  Overall distribution
    
  Tissue specific distribution
    
 
  
 
   

    
  Overall distribution
    
  Tissue specific distribution
    
 
Gscore (Amp):  0.00  
Gscore (Del):  0.00  
 
   

    
  Overall distribution
    
  Tissue specific distribution
    
 
Mscore:  0.00  
 
   

    
  Overall
    
  Tissue specific
    
 
Total fusion occurrence:  NA  
 
 
 

    
  Overall
    
  Tissue specific
    
     
   

    
      Functional class:  Not specified
      JensenLab PubMed score:  1124.27  (Percentile rank: 95.90%)
      PubTator score:  521.12  (Percentile rank: 93.60%)
      Target development/druggability level:  TbioThese targets do not have known drug or small molecule activities that satisfy the activity thresholds detailed below AND satisfy one or more of the following criteria: 1) target is above the cutoff criteria for Tdark; 2) target is annotated with a Gene Ontology Molecular Function or Biological Process leaf term(s) with an Experimental Evidence code.
      Tractability (small molecule):  N/A
      Tractability (antibody):  Predicted Tractable - High confidenceTargets located in the plasma membrane; Targets with GO cell component terms plasma membrane or secreted

    







Contact us | | Terms & Conditions.
Copyright © 2020 University of Pennsylvania. All Rights Reserved.