About Enhancer
| Enhancer ID: | E_01_0556 |
| Species: | human |
| Position : | chr12:2956797-2958797   |
| Biosample name: | |
| Experiment class : | High+Lowthroughput |
| Enhancer type: | Enhancer |
| Disease: | Nothing |
| Pubmed ID: | 29636889 |
| Enhancer experiment: | Flow cytometry,immunohistochemical,histological staining,SDS-PAGE,Western blot,Quantitative RT-PCR, |
| Enhancer experiment description: | Finally, TEAD4-KD led to the failure of adipogenesis from bMDSCs. Together, our results support that TEAD4 is essential during adipogenic differentiation of bMDSCs. It has little effect on myogenesis of bMDSCs, and does not affect ostegenesis, neurogenesis, or pancreatic differentiation of bMDSCs. Our findings will be helpful for future study on the roles of the TEAD family during differentiation of MDSCs, and for controlling MDSC differentiation for stem cell applications. |
About Target gene
| Target gene : | CAV3,ADD1 |
| Strong evidence: | qRT-PCR,qPCR,ChIP,3C |
| Less strong evidence: | RNA-Seq |
| Target gene experiment description: | Finally, TEAD4-KD led to the failure of adipogenesis from bMDSCs. Together, our results support that TEAD4 is essential during adipogenic differentiation of bMDSCs. It has little effect on myogenesis of bMDSCs, and does not affect ostegenesis, neurogenesis, or pancreatic differentiation of bMDSCs. Our findings will be helpful for future study on the roles of the TEAD family during differentiation of MDSCs, and for controlling MDSC differentiation for stem cell applications.;Finally, TEAD4-KD led to the failure of adipogenesis from bMDSCs. Together, our results support that TEAD4 is essential during adipogenic differentiation of bMDSCs. It has little effect on myogenesis of bMDSCs, and does not affect ostegenesis, neurogenesis, or pancreatic differentiation of bMDSCs. Our findings will be helpful for future study on the roles of the TEAD family during differentiation of MDSCs, and for controlling MDSC differentiation for stem cell applications.;Finally, TEAD4-KD led to the failure of adipogenesis from bMDSCs. Together, our results support that TEAD4 is essential during adipogenic differentiation of bMDSCs. It has little effect on myogenesis of bMDSCs, and does not affect ostegenesis, neurogenesis, or pancreatic differentiation of bMDSCs. Our findings will be helpful for future study on the roles of the TEAD family during differentiation of MDSCs, and for controlling MDSC differentiation for stem cell applications.;Finally, TEAD4-KD led to the failure of adipogenesis from bMDSCs. Together, our results support that TEAD4 is essential during adipogenic differentiation of bMDSCs. It has little effect on myogenesis of bMDSCs, and does not affect ostegenesis, neurogenesis, or pancreatic differentiation of bMDSCs. Our findings will be helpful for future study on the roles of the TEAD family during differentiation of MDSCs, and for controlling MDSC differentiation for stem cell applications.;Finally, TEAD4-KD led to the failure of adipogenesis from bMDSCs. Together, our results support that TEAD4 is essential during adipogenic differentiation of bMDSCs. It has little effect on myogenesis of bMDSCs, and does not affect ostegenesis, neurogenesis, or pancreatic differentiation of bMDSCs. Our findings will be helpful for future study on the roles of the TEAD family during differentiation of MDSCs, and for controlling MDSC differentiation for stem cell applications.;Finally, TEAD4-KD led to the failure of adipogenesis from bMDSCs. Together, our results support that TEAD4 is essential during adipogenic differentiation of bMDSCs. It has little effect on myogenesis of bMDSCs, and does not affect ostegenesis, neurogenesis, or pancreatic differentiation of bMDSCs. Our findings will be helpful for future study on the roles of the TEAD family during differentiation of MDSCs, and for controlling MDSC differentiation for stem cell applications. |
About TF
| TF name : | TEAD4(EFTR-2,RTEF1,TCF13L1,TEF-3,TEF3,TEFR-1,hRTEF-1B)TEAD1TEAD2TEAD3 |
| TF experiment: | Flow cytometry,immunohistochemical,histological staining,SDS-PAGE,Western blot,Quantitative RT-PCR, |
| TF experiment description: | Finally, TEAD4-KD led to the failure of adipogenesis from bMDSCs. Together, our results support that TEAD4 is essential during adipogenic differentiation of bMDSCs. It has little effect on myogenesis of bMDSCs, and does not affect ostegenesis, neurogenesis, or pancreatic differentiation of bMDSCs. Our findings will be helpful for future study on the roles of the TEAD family during differentiation of MDSCs, and for controlling MDSC differentiation for stem cell applications.;Finally, TEAD4-KD led to the failure of adipogenesis from bMDSCs. Together, our results support that TEAD4 is essential during adipogenic differentiation of bMDSCs. It has little effect on myogenesis of bMDSCs, and does not affect ostegenesis, neurogenesis, or pancreatic differentiation of bMDSCs. Our findings will be helpful for future study on the roles of the TEAD family during differentiation of MDSCs, and for controlling MDSC differentiation for stem cell applications.;Finally, TEAD4-KD led to the failure of adipogenesis from bMDSCs. Together, our results support that TEAD4 is essential during adipogenic differentiation of bMDSCs. It has little effect on myogenesis of bMDSCs, and does not affect ostegenesis, neurogenesis, or pancreatic differentiation of bMDSCs. Our findings will be helpful for future study on the roles of the TEAD family during differentiation of MDSCs, and for controlling MDSC differentiation for stem cell applications.;Finally, TEAD4-KD led to the failure of adipogenesis from bMDSCs. Together, our results support that TEAD4 is essential during adipogenic differentiation of bMDSCs. It has little effect on myogenesis of bMDSCs, and does not affect ostegenesis, neurogenesis, or pancreatic differentiation of bMDSCs. Our findings will be helpful for future study on the roles of the TEAD family during differentiation of MDSCs, and for controlling MDSC differentiation for stem cell applications.;Finally, TEAD4-KD led to the failure of adipogenesis from bMDSCs. Together, our results support that TEAD4 is essential during adipogenic differentiation of bMDSCs. It has little effect on myogenesis of bMDSCs, and does not affect ostegenesis, neurogenesis, or pancreatic differentiation of bMDSCs. Our findings will be helpful for future study on the roles of the TEAD family during differentiation of MDSCs, and for controlling MDSC differentiation for stem cell applications.;Finally, TEAD4-KD led to the failure of adipogenesis from bMDSCs. Together, our results support that TEAD4 is essential during adipogenic differentiation of bMDSCs. It has little effect on myogenesis of bMDSCs, and does not affect ostegenesis, neurogenesis, or pancreatic differentiation of bMDSCs. Our findings will be helpful for future study on the roles of the TEAD family during differentiation of MDSCs, and for controlling MDSC differentiation for stem cell applications. |
About Function
| Enhancer function : | Finally, TEAD4-KD led to the failure of adipogenesis from bMDSCs. Together, our results support that TEAD4 is essential during adipogenic differentiation of bMDSCs. It has little effect on myogenesis of bMDSCs, and does not affect ostegenesis, neurogenesis, or pancreatic differentiation of bMDSCs. Our findings will be helpful for future study on the roles of the TEAD family during differentiation of MDSCs, and for controlling MDSC differentiation for stem cell applications. |
| Enhancer function experiment: | Immunohistochemical staining |
| Enhancer function experiment description: |
Finally, TEAD4-KD led to the failure of adipogenesis from bMDSCs. Together, our results support that TEAD4 is essential during adipogenic differentiation of bMDSCs. It has little effect on myogenesis of bMDSCs, and does not affect ostegenesis, neurogenesis, or pancreatic differentiation of bMDSCs. Our findings will be helpful for future study on the roles of the TEAD family during differentiation of MDSCs, and for controlling MDSC differentiation for stem cell applications. |
About SNP
| SNP ID: | -- |
Upstream Pathway Annotation of TF
| GeneName | Pathway Name | Source | Gene Number |
|---|---|---|---|
| TEAD4 | PPARA activates gene expression | reactome | 113 |
| TEAD4 | YAP1- and WWTR1 (TAZ)-stimulated gene expression | reactome | 29 |
| TEAD4 | Hs_VEGFA-VEGFR2_Signaling_Pathway_WP3888_90000 | wikipathways | 153 |
| TEAD1 | PPARA activates gene expression | reactome | 113 |
| TEAD1 | YAP1- and WWTR1 (TAZ)-stimulated gene expression | reactome | 29 |
| TEAD1 | Hs_Mesodermal_Commitment_Pathway_WP2857_87780 | wikipathways | 47 |
| TEAD2 | PPARA activates gene expression | reactome | 113 |
| TEAD2 | YAP1- and WWTR1 (TAZ)-stimulated gene expression | reactome | 29 |
| TEAD2 | Hs_Mesodermal_Commitment_Pathway_WP2857_87780 | wikipathways | 47 |
| TEAD3 | PPARA activates gene expression | reactome | 113 |
| TEAD3 | YAP1- and WWTR1 (TAZ)-stimulated gene expression | reactome | 29 |
Enhancer associated network
The number on yellow line represents the distance between enhancer and
target gene