HCSGD entry for UBE3A
1. General information
| Official gene symbol | UBE3A |
|---|---|
| Entrez ID | 7337 |
| Gene full name | ubiquitin protein ligase E3A |
| Other gene symbols | ANCR AS E6-AP EPVE6AP HPVE6A |
| Links to Entrez Gene | Links to Entrez Gene |
2. Neighbors in the network
This gene isn't in PPI subnetwork.
3. Gene ontology annotation
GO ID | GO term | Evidence | Category |
|---|---|---|---|
| GO:0000502 | Proteasome complex | IEA | cellular_component |
| GO:0001541 | Ovarian follicle development | IEA | biological_process |
| GO:0003713 | Transcription coactivator activity | IEA | molecular_function |
| GO:0004842 | Ubiquitin-protein ligase activity | IDA IEA | molecular_function |
| GO:0005515 | Protein binding | IPI | molecular_function |
| GO:0005634 | Nucleus | IBA | cellular_component |
| GO:0005737 | Cytoplasm | IBA | cellular_component |
| GO:0005829 | Cytosol | IEA | cellular_component |
| GO:0006508 | Proteolysis | TAS | biological_process |
| GO:0006511 | Ubiquitin-dependent protein catabolic process | TAS | biological_process |
| GO:0007420 | Brain development | TAS | biological_process |
| GO:0014068 | Positive regulation of phosphatidylinositol 3-kinase signaling | IEA | biological_process |
| GO:0016032 | Viral process | IEA | biological_process |
| GO:0030521 | Androgen receptor signaling pathway | IBA | biological_process |
| GO:0035037 | Sperm entry | IEA | biological_process |
| GO:0042787 | Protein ubiquitination involved in ubiquitin-dependent protein catabolic process | IBA | biological_process |
| GO:0045944 | Positive regulation of transcription from RNA polymerase II promoter | IEA | biological_process |
| GO:0060736 | Prostate gland growth | IEA | biological_process |
| GO:0070936 | Protein K48-linked ubiquitination | IDA | biological_process |
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4. Expression levels in datasets
- Meta-analysis result
| p-value up | p-value down | FDR up | FDR down |
|---|---|---|---|
| 0.8119688728 | 0.7043137989 | 0.9999902473 | 1.0000000000 |
- Individual experiment result
( "-" represent NA in the specific microarray platform )
( "-" represent NA in the specific microarray platform )
| Data source | Up or down | Log fold change |
|---|---|---|
| GSE11954 | Down | -0.1190019855 |
| GSE13712_SHEAR | Up | 0.0265482407 |
| GSE13712_STATIC | Down | -0.0893574556 |
| GSE19018 | Down | -0.0311273781 |
| GSE19899_A1 | Up | 0.2565789813 |
| GSE19899_A2 | Up | 0.0327804681 |
| PubMed_21979375_A1 | Up | 0.3280135617 |
| PubMed_21979375_A2 | Up | 0.0030203701 |
| GSE35957 | Up | 0.0484922107 |
| GSE36640 | Down | -0.2171734743 |
| GSE54402 | Up | 0.1337042796 |
| GSE9593 | Down | -0.0786968212 |
| GSE43922 | Down | -0.0347830379 |
| GSE24585 | Down | -0.0261609907 |
| GSE37065 | Up | 0.0559126887 |
| GSE28863_A1 | Down | -0.0143010492 |
| GSE28863_A2 | Down | -0.0431018001 |
| GSE28863_A3 | Up | 0.1293369177 |
| GSE28863_A4 | Down | -0.0667664969 |
| GSE48662 | Down | -0.0124223433 |
5. Regulation relationships with compounds/drugs/microRNAs
- Compounds
Not regulated by compounds
- Drugs
Not regulated by drugs
- MicroRNAs
- mirTarBase
- mirTarBase
MiRNA_name | mirBase ID | miRTarBase ID | Experiment | Support type | References (Pubmed ID) |
|---|---|---|---|---|---|
| hsa-miR-375 | MIMAT0000728 | MIRT019860 | Microarray | Functional MTI (Weak) | 20215506 |
| hsa-miR-24-3p | MIMAT0000080 | MIRT030496 | Microarray | Functional MTI (Weak) | 19748357 |
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- mirRecord
No target information from mirRecord
- mirRecord
6. Text-mining results about the gene
Gene occurances in abstracts of cellular senescence-associated articles: 5 abstracts the gene occurs.
PubMed ID of the article | Sentenece the gene occurs |
|---|---|
| 27142689 | The HR-HPV E6 can activate hTERT promoter by interacting with E6AP or other binding proteins and by stabilizing the interaction between hTERT and E6AP |
| 27142689 | We have previously reported the interaction of GRIM-19 with 18E6 and E6AP to disrupt the E6/E6AP complex and increase the autoubiquitination of E6AP |
| 22986523 | However, the specific stress conditions that are controlled by E6AP have not been defined |
| 22986523 | Here, we describe a novel role for E6AP in the control of oxidative stress response |
| 22986523 | Cells lacking E6AP expression have reduced capacity to accumulate ROS, and oxidative DNA damage, in response to 20% cell culture oxygen levels, treatment with hydrogen peroxide and expression of oncogenic RAS |
| 22986523 | Consequently, cells with compromised E6AP have impaired senescent and apoptotic response to sub-lethal and lethal doses of oxidative stress, respectively |
| 22986523 | In a xenograft model, downregulation of E6AP renders transplanted tumours refractory to growth-suppressive effects of hydrogen peroxide |
| 22986523 | Our results provide the first demonstration that E6AP is an important regulator of ROS-mediated cellular senescence and cell death |
| 22689861 | E6AP ubiquitin ligase regulates PML-induced senescence in Myc-driven lymphomagenesis |
| 22689861 | A partial loss of E6AP attenuated Myc-induced B-cell lymphomagenesis |
| 22689861 | B-cell lymphomas deficient for E6AP expressed elevated levels of PML and PML-nuclear bodies with a concomitant increase in markers of cellular senescence, including p21, H3K9me3, and p16 |
| 22689861 | Importantly, E6AP expression was elevated in approximately 60% of human Burkitt lymphomas, and down-regulation of E6AP in B-lymphoma cells restored PML expression with a concurrent induction of cellular senescence in these cells |
| 21927031 | E6AP is required for replicative and oncogene-induced senescence in mouse embryo fibroblasts |
| 21927031 | We therefore explored the role of E6AP in the cellular response to stress |
| 21927031 | We found that mouse embryo fibroblasts (MEFs) lacking E6AP escape replicative senescence, as well as Ras-induced senescence associated with impaired markers |
| 21927031 | Overall, our study implicates E6AP as an important regulator of the cellular response to stress, in particular through the regulation of replicative and oncogene-induced senescence |
| 17898049 | For instance, E7 acts to increase p53 levels while E6 accelerates its rate of turnover through the binding of the cellular ubiquitin ligase E6AP |
| 17898049 | In contrast, mutant forms of E6 that are unable to bind E6AP remain resistant to the effects of interferon, demonstrating that the absolute levels of p53 are not the major determinants of this activity |
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