About Enhancer
| Enhancer ID: | E_02_0333 |
| Species: | human |
| Position : | chr12:6784508-6786508   |
| Biosample name: | |
| Experiment class : | High+Lowthroughput |
| Enhancer type: | Enhancer |
| Disease: | Nothing |
| Pubmed ID: | 29676032 |
| Enhancer experiment: | CRISPR/Cas9,transfection,Immunofluorescence,PCR,Flow Cytometry,T7E1 cleavage assay, |
| Enhancer experiment description: | Here we describe an improved protocol that uses two gRNAs flanking the selected targeted region, leading to highly efficient homologous recombination in mouse ESCs. The bi-allelic recombination targeting efficiency is over 90% when using two gRNAs together with the inhibition of non-homologous end-joint repair. Moreover, this technique is compatible with the generation of knocked-in mice and the use of ESC-derived differentiation protocols, therefore facilitating and accelerating the gene targeting in mice and ESCs. |
About Target gene
| Target gene : | CD4,Rax,HR |
| Strong evidence: | qRT-PCR,qPCR,ChIP,3C |
| Less strong evidence: | RNA-Seq |
| Target gene experiment description: | Here we describe an improved protocol that uses two gRNAs flanking the selected targeted region, leading to highly efficient homologous recombination in mouse ESCs. The bi-allelic recombination targeting efficiency is over 90% when using two gRNAs together with the inhibition of non-homologous end-joint repair. Moreover, this technique is compatible with the generation of knocked-in mice and the use of ESC-derived differentiation protocols, therefore facilitating and accelerating the gene targeting in mice and ESCs.;Here we describe an improved protocol that uses two gRNAs flanking the selected targeted region, leading to highly efficient homologous recombination in mouse ESCs. The bi-allelic recombination targeting efficiency is over 90% when using two gRNAs together with the inhibition of non-homologous end-joint repair. Moreover, this technique is compatible with the generation of knocked-in mice and the use of ESC-derived differentiation protocols, therefore facilitating and accelerating the gene targeting in mice and ESCs.;Here we describe an improved protocol that uses two gRNAs flanking the selected targeted region, leading to highly efficient homologous recombination in mouse ESCs. The bi-allelic recombination targeting efficiency is over 90% when using two gRNAs together with the inhibition of non-homologous end-joint repair. Moreover, this technique is compatible with the generation of knocked-in mice and the use of ESC-derived differentiation protocols, therefore facilitating and accelerating the gene targeting in mice and ESCs. |
About TF
| TF name : | -- |
| TF experiment: | CRISPR/Cas9,transfection,Immunofluorescence,PCR,Flow Cytometry,T7E1 cleavage assay, |
| TF experiment description: | Here we describe an improved protocol that uses two gRNAs flanking the selected targeted region, leading to highly efficient homologous recombination in mouse ESCs. The bi-allelic recombination targeting efficiency is over 90% when using two gRNAs together with the inhibition of non-homologous end-joint repair. Moreover, this technique is compatible with the generation of knocked-in mice and the use of ESC-derived differentiation protocols, therefore facilitating and accelerating the gene targeting in mice and ESCs.;Here we describe an improved protocol that uses two gRNAs flanking the selected targeted region, leading to highly efficient homologous recombination in mouse ESCs. The bi-allelic recombination targeting efficiency is over 90% when using two gRNAs together with the inhibition of non-homologous end-joint repair. Moreover, this technique is compatible with the generation of knocked-in mice and the use of ESC-derived differentiation protocols, therefore facilitating and accelerating the gene targeting in mice and ESCs.;Here we describe an improved protocol that uses two gRNAs flanking the selected targeted region, leading to highly efficient homologous recombination in mouse ESCs. The bi-allelic recombination targeting efficiency is over 90% when using two gRNAs together with the inhibition of non-homologous end-joint repair. Moreover, this technique is compatible with the generation of knocked-in mice and the use of ESC-derived differentiation protocols, therefore facilitating and accelerating the gene targeting in mice and ESCs. |
About Function
| Enhancer function : | Here we describe an improved protocol that uses two gRNAs flanking the selected targeted region, leading to highly efficient homologous recombination in mouse ESCs. The bi-allelic recombination targeting efficiency is over 90% when using two gRNAs together with the inhibition of non-homologous end-joint repair. Moreover, this technique is compatible with the generation of knocked-in mice and the use of ESC-derived differentiation protocols, therefore facilitating and accelerating the gene targeting in mice and ESCs. |
| Enhancer function experiment: | Immunohistochemical staining |
| Enhancer function experiment description: |
Here we describe an improved protocol that uses two gRNAs flanking the selected targeted region, leading to highly efficient homologous recombination in mouse ESCs. The bi-allelic recombination targeting efficiency is over 90% when using two gRNAs together with the inhibition of non-homologous end-joint repair. Moreover, this technique is compatible with the generation of knocked-in mice and the use of ESC-derived differentiation protocols, therefore facilitating and accelerating the gene targeting in mice and ESCs. |
About SNP
| SNP ID: | -- |
Upstream Pathway Annotation of TF
| GeneName | Pathway Name | Source | Gene Number |
|---|
Enhancer associated network
The number on yellow line represents the distance between enhancer and
target gene