Gene Report
Basic Information
| Approved Symbol | ZBTB16 |
|---|---|
| Approved Name | zinc finger and BTB domain containing 16 |
| Previous Symbol | ZNF145 |
| Previous Name | "zinc finger protein 145 (Kruppel-like, expressed in promyelocytic leukemia)" |
| Symbol Alias | PLZF |
| Name Alias | "promyelocytic leukaemia zinc finger" |
| Location | 11q23 |
| Position | chr11:114121278-114121398 (+) |
| External Links |
Entrez Gene: 7704 Ensembl: ENSG00000109906 UCSC: uc001poq.3 HGNC ID: 12930 |
| No. of Studies (Positive/Negative) | 1(1/0)
|
| Type | Literature-origin |
Positive relationships between ZBTB16 and MDD (count: 1)
| Name in Literature | Reference | Research Type | Statistical Result | Relation Description | |
|---|---|---|---|---|---|
| ZBTB16 | Spijker, 2010 | patients and normal controls | Based on LPS-stimulated blood gene expression using whole-ge...... Based on LPS-stimulated blood gene expression using whole-genome microarrays, this gene serves as a molecular signature of MDD More... |
Positive relationships between ZBTB16 and other components at different levels (count: 0)
Positive relationship network of ZBTB16 in MK4MDD
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Note:
1. The different color of the nodes denotes the level of the nodes.
| Genetic/Epigenetic Locus | Protein and Other Molecule | Cell and Molecular Pathway | Neural System | Cognition and Behavior | Symptoms and Signs | Environment | MDD |
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2. User can drag the nodes to rearrange the layout of the network. Click the node will enter the report page of the node. Right-click will show also the menus to link to the report page of the node and remove the node and related edges. Hover the node will show the level of the node and hover the edge will show the evidence/description of the edge.
3. The network is generated using Cytoscape Web
Negative relationships between ZBTB16 and MDD (count: 0)
Negative relationships between ZBTB16 and other components at different levels (count: 0)
ZBTB16 related SNPs in MK4MDD (count: 0)
ZBTB16 related proteins in MK4MDD (count: 0)
ZBTB16 related GO terms (count: 43)
Literature-origin GO terms | ||||
| ID | Name | Type | Evidence | |
|---|---|---|---|---|
| GO:0006915 | apoptotic process | biological process | NAS[9294197] | |
Gene mapped GO terms | ||||
| ID | Name | Type | Evidence | |
|---|---|---|---|---|
| GO:0042802 | identical protein binding | molecular function | IPI[9294197|25416956] | |
| GO:0001823 | mesonephros development | biological process | ISS[8541544] | |
| GO:0019904 | protein domain specific binding | molecular function | IEA | |
| GO:0005829 | cytosol | cellular component | IEA | |
| GO:0035116 | embryonic hindlimb morphogenesis | biological process | IEA | |
| GO:0016567 | protein ubiquitination | biological process | IEA | |
| GO:0001206 | transcriptional repressor activity, RNA polymerase II distal enhancer sequence-specific binding | molecular function | IDA[12802276] | |
| GO:0017053 | transcriptional repressor complex | cellular component | IDA[12802276] | |
| GO:0008022 | protein C-terminus binding | molecular function | IEA | |
| GO:0009880 | embryonic pattern specification | biological process | IEA | |
| GO:0046872 | metal ion binding | molecular function | IEA | |
| GO:0045778 | positive regulation of ossification | biological process | IDA[21547890] | |
| GO:0000980 | RNA polymerase II distal enhancer sequence-specific DNA binding | molecular function | IDA[12802276] | |
| GO:0005634 | nucleus | cellular component | IDA[9294197|11929873|21547890] | |
| GO:0007417 | central nervous system development | biological process | ISS[8541544] | |
| GO:0051138 | positive regulation of NK T cell differentiation | biological process | IEA | |
| GO:0005515 | protein binding | molecular function | IPI[9294197|16169070|16189514|16828757|17118363|19648967|21988832|23088713|25241761|25416956] | |
| GO:0061036 | positive regulation of cartilage development | biological process | IDA[21547890] | |
| GO:0016604 | nuclear body | cellular component | IDA[19648967] | |
| GO:0030099 | myeloid cell differentiation | biological process | TAS[9294197] | |
| GO:0030097 | hemopoiesis | biological process | IDA[8541544]; TAS[9294197] | |
| GO:0006351 | transcription, DNA-templated | biological process | IEA | |
| GO:0042803 | protein homodimerization activity | molecular function | IDA[8622986] | |
| GO:0005886 | plasma membrane | cellular component | IEA | |
| GO:0045892 | negative regulation of transcription, DNA-templated | biological process | IDA[12802276]; NAS[9294197] | |
| GO:0034504 | protein localization to nucleus | biological process | IEA | |
| GO:0032332 | positive regulation of chondrocyte differentiation | biological process | IMP[21547890] | |
| GO:0035136 | forelimb morphogenesis | biological process | IEA | |
| GO:0005730 | nucleolus | cellular component | IDA | |
| GO:0000122 | negative regulation of transcription from RNA polymerase II promoter | biological process | IDA[12802276] | |
| GO:0045893 | positive regulation of transcription, DNA-templated | biological process | IDA[21547890] | |
| GO:0045638 | negative regulation of myeloid cell differentiation | biological process | ISS[8541544] | |
| GO:0042733 | embryonic digit morphogenesis | biological process | IEA | |
| GO:0003677 | DNA binding | molecular function | IDA[12802276]; NAS[9294197] | |
| GO:0043065 | positive regulation of apoptotic process | biological process | IEA | |
| GO:0016605 | PML body | cellular component | IDA[9294197] | |
| GO:0051216 | cartilage development | biological process | IDA[21547890] | |
| GO:0008285 | negative regulation of cell proliferation | biological process | IEA | |
| GO:0009952 | anterior/posterior pattern specification | biological process | IEA | |
| GO:0045600 | positive regulation of fat cell differentiation | biological process | IMP[21547890] | |
| GO:0048133 | male germ-line stem cell asymmetric division | biological process | IEA | |
| GO:0016607 | nuclear speck | cellular component | IDA[8541544] | |
ZBTB16 related KEGG pathways (count: 2)
Gene mapped KEGG pathways | ||||
| ID | Name | Brief Description | Full Description | |
|---|---|---|---|---|
| hsa05200 | pathways in_cancer | Pathways in cancer | ||
| hsa05221 | acute myeloid_leukemia | Acute myeloid leukemia | Two major types of genetic events are crucial for the molecu...... Two major types of genetic events are crucial for the molecular pathogenesis of acute myeloid leukemias (AML) : activating mutations of signal transduction intermediates and alterations in myeloid transcription factors governing hematopoietic differentiation. Both aberrant and constitutive activation of signal transduction molecules are found in about 50% of primary AML bone marrow samples, and seem to contribute to the increased proliferation and apoptosis resistance. The most common of these activating events were observed in the RTK Flt3, in N-Ras and K-Ras, in Kit, and sporadically in other RTKs. Specific haematopoietic transcription factors are crucial for differentiation to particular lineages during normal differentiation, but are frequently disrupted in AML. Some mechanisms of disruption involve the effect of fusion proteins that are generated by chromosomal translocations on haematopoietic transcription factors. In other cases, the transcription factors themselves are mutated. More... | |
ZBTB16 related BioCarta pathways (count: 1)
Gene mapped BioCarta pathways | ||||
| ID | Name | Brief Description | Full Description | |
|---|---|---|---|---|
| EGFR_SMRTE_PATHWAY | egfr smrte_pathway | Map Kinase Inactivation of SMRT Corepressor | Corepressors are coregulators that interact with transcripti...... Corepressors are coregulators that interact with transcriptional silencers in a variety of pathways such as cell proliferation, differentiation and apoptosis. Abnormal corepressor-silencer interactions have been implicated in a variety of human disease pathways including several types of leukemia. The regulation of the SMRT corepressor via the p38 and Mek-1 Kinase pathway is shown in this diagram. The EFG receptor represents one mechanism by which SMRT function is inhibited by the tyrosine kinase signaling pathway. The MEKK1 and p38 pathways are activated by EGF resulting in cross-regulation of SMRT. The induction of SMRT phosphorylation by each pathway is shown, causing SMRT to unbind from the transcription factor complexes represented by RXR, RAR, T3R and PLZF. More... | |
ZBTB16 related Reactome pathways (count: 0)
ZBTB16 related interactors from protein-protein interaction data in HPRD (count: 84)
| Gene | Interactor | Interactor in MK4MDD? | Experiment Type | PMID | |
|---|---|---|---|---|---|
| ZBTB16 | CDK1 | No | in vitro;in vivo | 10497277 | |
| ZBTB16 | TERF1 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | PAFAH1B3 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | GATA2 | No | in vitro;in vivo | 11964310 | |
| ZBTB16 | EP300 | Yes | in vitro;in vivo | 15964811 | |
| ZBTB16 | FCHO1 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | GSTM4 | Yes | yeast 2-hybrid | 16169070 | |
| ZBTB16 | GATA1 | Yes | in vitro;in vivo | 12242665 | |
| ZBTB16 | HDAC6 | No | in vitro;in vivo | 15467736 | |
| ZBTB16 | FAM101B | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | TXNIP | No | in vitro;in vivo;yeast 2-hybrid | 12821938 | |
| ZBTB16 | RUNX1T1 | No | in vitro;in vivo;yeast 2-hybrid | 10688654 , 11090081 | |
| ZBTB16 | PMAIP1 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | MAP3K3 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | BMI1 | No | in vitro;in vivo | 12408802 | |
| ZBTB16 | RB1 | No | yeast 2-hybrid | 15949438 | |
| ZBTB16 | HDAC7 | No | in vitro | 11929873 | |
| ZBTB16 | ESR1 | Yes | in vitro | 14521715 | |
| ZBTB16 | HDAC4 | No | in vitro;in vivo | 15467736 , 11929873 | |
| ZBTB16 | EEF1A1 | No | in vitro;in vivo;yeast 2-hybrid | 16828757 | |
| ZBTB16 | GNE | No | in vitro;yeast 2-hybrid | 17118363 | |
| ZBTB16 | HEATR2 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | ZBTB32 | No | in vivo;yeast 2-hybrid | 10572087 | |
| ZBTB16 | BCL6 | Yes | in vitro;in vivo;yeast 2-hybrid | 11175338 | |
| ZBTB16 | PML | No | in vitro;in vivo;yeast 2-hybrid | 9294197 , 11175338 | |
| ZBTB16 | PGAM5 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | KRTAP4-12 | No | yeast 2-hybrid | 16189514 | |
| ZBTB16 | PLSCR1 | Yes | yeast 2-hybrid | 16189514 | |
| ZBTB16 | ICAM3 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | VTA1 | No | yeast 2-hybrid | 16189514 | |
| ZBTB16 | KIAA1549 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | TRAF2 | No | yeast 2-hybrid | 16189514 | |
| ZBTB16 | TOLLIP | Yes | yeast 2-hybrid | 16169070 | |
| ZBTB16 | SPOP | No | yeast 2-hybrid | 16189514 | |
| ZBTB16 | VDR | No | in vitro;in vivo | 12460926 , 11719366 , 14521715 | |
| ZBTB16 | PSMD2 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | RXRA | Yes | in vitro | 8622986 | |
| ZBTB16 | WDR33 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | FSHR | No | yeast 2-hybrid | 15196694 | |
| ZBTB16 | PSMD11 | Yes | yeast 2-hybrid | 16169070 | |
| ZBTB16 | HDAC5 | Yes | in vitro;in vivo | 15467736 , 11929873 | |
| ZBTB16 | RARA | No | in vitro;yeast 2-hybrid | 14521715 | |
| ZBTB16 | ATP7B | No | in vitro;yeast 2-hybrid | 16676348 | |
| ZBTB16 | SMAD3 | No | yeast 2-hybrid | 15231748 | |
| ZBTB16 | CD81 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | AGTR2 | No | in vitro;yeast 2-hybrid | 14657020 | |
| ZBTB16 | DPM1 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | ACP5 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | NCOR2 | No | in vitro;in vivo;yeast 2-hybrid | 9256429 , 14982881 | |
| ZBTB16 | CCDC85B | No | yeast 2-hybrid | 16189514 | |
| ZBTB16 | NCOR1 | No | in vitro;in vivo;yeast 2-hybrid | 9531570 | |
| ZBTB16 | HDAC1 | No | in vitro;in vivo | 9627120 , 15467736 | |
| ZBTB16 | PNRC2 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | THNSL2 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | NR3C1 | Yes | in vitro | 14521715 | |
| ZBTB16 | GCSH | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | TRIM27 | No | yeast 2-hybrid | 16189514 | |
| ZBTB16 | HBXIP | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | IL6 | Yes | yeast 2-hybrid | 16169070 | |
| ZBTB16 | CEP72 | No | yeast 2-hybrid | 16189514 | |
| ZBTB16 | EIF2S2 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | CCDC109B | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | CIDEA | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | HDAC9 | No | in vitro | 12590135 | |
| ZBTB16 | HBEGF | No | in vitro;in vivo;yeast 2-hybrid | 14597771 , 15219838 | |
| ZBTB16 | COQ6 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | LYAR | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | LDOC1 | No | yeast 2-hybrid | 16189514 | |
| ZBTB16 | CEP70 | No | yeast 2-hybrid | 16189514 | |
| ZBTB16 | DLST | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | QTRT1 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | MAGEA11 | No | yeast 2-hybrid | 16189514 | |
| ZBTB16 | SIN3A | No | in vitro;in vivo | 9627120 , 11719366 | |
| ZBTB16 | ENOX1 | No | yeast 2-hybrid | 16189514 | |
| ZBTB16 | SP1 | No | in vitro;in vivo | 12004059 | |
| ZBTB16 | ANAPC5 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | SIN3B | No | in vitro;in vivo | 9627120 | |
| ZBTB16 | LSM2 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | ZBTB16 | Yes | in vitro;in vivo;yeast 2-hybrid | 11929873 , 8622986 | |
| ZBTB16 | ZNF24 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | EPN1 | No | in vitro;in vivo;yeast 2-hybrid | 10791968 | |
| ZBTB16 | CCDC130 | No | yeast 2-hybrid | 16169070 | |
| ZBTB16 | FHL2 | No | in vitro;in vivo;yeast 2-hybrid | 12145280 | |
| ZBTB16 | RAB27A | No | yeast 2-hybrid | 16169070 |