Conclusion
Assessment
Binding Mode
Motif Status
Notes
Comments
Known motif
1 Monomer or homomultimer
High-throughput in vitro
Also can form heterodimers (PMID: 26550823).
Description
Description:
transcription factor AP-4 (activating enhancer binding protein 4) [Source:HGNC Symbol;Acc:HGNC:11745
Entrez Summary
TBA
Ensembl ID:
ENSG00000090447
External Link:
T014172_1.02
Interpro
IPR011598 ; ;
Protein Domain:
Protein: ENSP00000204517DBD: bHLHOther: Protein: ENSP00000459390DBD: bHLHOther:
Previous Annotations
Source
Annotation
TF-CAT classification
TF Gene Candidate_DNA-Binding sequence-specific_DNA Binding_ PMIDS:2123466 2833704
Vaquerizas 2009 TF classification
"a " Has direct evidence of TF function;
"b " Has evidence for an orthologous TF;
"c " contains likely DBDs, but has no functional evidence;
"x " is an unlikely TF such as predicted gene, genes with likely non-specific DBDs or that have function outside transcription;
"other " category contains proteins without clear DBDs they curated from external sources.
a
CisBP considers it as a TF?
Yes
TFclass considers it as a TF?
Yes
Has GO:0003700 "transcription factor activity, sequence-specific DNA binding"
Yes
GO-Info
GO:0001077 RNA polymerase II core promoter proximal region sequence-specific DNA binding transcription factor a IEA - GO_REF:0000019 GO:0003705 RNA polymerase II distal enhancer sequence-specific DNA binding transcription factor activity IDA - PMID:2833704
Initial Assessment
1a1 Protein has a high confidence PWM (HT-SELEX, PBM or B1H model) or there is a crystal structure that supports sequence specific DNA binding;
1a2 There is high confidence data for a close ortholog (as defined in CisBP);
2a1 There is lower confidence direct evidence, such as a Jaspar, Hocomoco or Transfac model;
2a2 There is lower confidence evidence for an close ortholog;
3a There is decent circumstantial evidence for its role as a TF or not;
4a Two or more datasets predict it as a TF;
5a One of the source datasets predicts is as a TF
1a1, Direct HQ evidence
TF has conditional DNA-binding requirements
DNA-Binding
Published Motif Data
Structure
Experimental History
{"regions": [{"startStyle": "curved", "end": 100, "endStyle": "curved", "aliStart": 49, "text": "HLH", "colour": "#2cb42c", "aliEnd": 99, "start": 49, "href": "http://pfam.xfam.org/family/PF00010.24", "type": "pfama", "display": "true", "metadata": {"end": 100, "description": "A number of eukaryotic proteins, which probably are sequence specific DNA-binding proteins that act as transcription factors, share a conserved domain of 40 to 50 amino acid residues. It has been proposed [PUBMED:2493990] that this domain is formed of two amphipathic helices joined by a variable length linker region that could form a loop. This 'helix-loop-helix' (HLH) domain mediates protein dimerization and has been found in the proteins listed below [PUBMED:1521738]. Most of these proteins have an extra basic region of about 15 amino acid residues that is adjacent to the HLH domain and specifically binds to DNA. They are refered as basic helix-loop-helix proteins (bHLH), and are classified in two groups: class A (ubiquitous) and class B (tissue-specific). Members of the bHLH family bind variations on the core sequence 'CANNTG', also refered to as the E-box motif. The homo- or heterodimerization mediated by the HLH domain is independent of, but necessary for DNA binding, as two basic regions are required for DNA binding activity. The HLH proteins lacking the basic domain (Emc, Id) function as negative regulators, since they form heterodimers, but fail to bind DNA. The hairy-related proteins (hairy, E(spl), deadpan) also repress transcription although they can bind DNA. The proteins of this subfamily act together with co-repressor proteins, like groucho, through their C-terminal motif WRPW.", "database": "PfamA", "aliStart": 49, "scoreName": "E-value", "accession": "PF00010.24", "start": 49, "score": 8.299999999999999e-17, "identifier": "Helix-loop-helix DNA-binding domain", "type": "DBD", "aliEnd": 99}}], "length": 339}
{"regions": [{"startStyle": "jagged", "end": 40, "endStyle": "curved", "aliStart": 1, "text": "HLH", "colour": "#2cb42c", "aliEnd": 40, "start": 1, "href": "http://pfam.xfam.org/family/PF00010.24", "type": "pfama", "display": "true", "metadata": {"end": 40, "description": "A number of eukaryotic proteins, which probably are sequence specific DNA-binding proteins that act as transcription factors, share a conserved domain of 40 to 50 amino acid residues. It has been proposed [PUBMED:2493990] that this domain is formed of two amphipathic helices joined by a variable length linker region that could form a loop. This 'helix-loop-helix' (HLH) domain mediates protein dimerization and has been found in the proteins listed below [PUBMED:1521738]. Most of these proteins have an extra basic region of about 15 amino acid residues that is adjacent to the HLH domain and specifically binds to DNA. They are refered as basic helix-loop-helix proteins (bHLH), and are classified in two groups: class A (ubiquitous) and class B (tissue-specific). Members of the bHLH family bind variations on the core sequence 'CANNTG', also refered to as the E-box motif. The homo- or heterodimerization mediated by the HLH domain is independent of, but necessary for DNA binding, as two basic regions are required for DNA binding activity. The HLH proteins lacking the basic domain (Emc, Id) function as negative regulators, since they form heterodimers, but fail to bind DNA. The hairy-related proteins (hairy, E(spl), deadpan) also repress transcription although they can bind DNA. The proteins of this subfamily act together with co-repressor proteins, like groucho, through their C-terminal motif WRPW.", "database": "PfamA", "aliStart": 1, "scoreName": "E-value", "accession": "PF00010.24", "start": 1, "score": 3.3e-12, "identifier": "Helix-loop-helix DNA-binding domain", "type": "DBD", "aliEnd": 40}}], "length": 115}