About Enhancer

Enhancer ID: E_01_0392
Species: human
Position : chr21:34784999-34786999
Biosample name:
Experiment class : High+Lowthroughput
Enhancer type: Enhancer
Disease: Acute myeloid leukemia
Pubmed ID:  29932212
Enhancer experiment: DNA-Seq,RT-PCR,Mutation Analysis,
Enhancer experiment description: CSF3R mutations are uncommon in AML; however, when they occur, they are often associated with core-binding factor gene abnormalities and CEBPAdm. An in-depth understanding of the interaction between these genetic alterations could facilitate a clearer understanding of the role of CSF3R mutations in AML development and may be used for disease classification, prognosis, and the development of targeted therapy.

About Target gene

Target gene : NPM1,CSF3R
Strong evidence: qRT-PCR,qPCR,ChIP,3C
Less strong evidence: RNA-Seq
Target gene experiment description: CSF3R mutations are uncommon in AML; however, when they occur, they are often associated with core-binding factor gene abnormalities and CEBPAdm. An in-depth understanding of the interaction between these genetic alterations could facilitate a clearer understanding of the role of CSF3R mutations in AML development and may be used for disease classification, prognosis, and the development of targeted therapy.;CSF3R mutations are uncommon in AML; however, when they occur, they are often associated with core-binding factor gene abnormalities and CEBPAdm. An in-depth understanding of the interaction between these genetic alterations could facilitate a clearer understanding of the role of CSF3R mutations in AML development and may be used for disease classification, prognosis, and the development of targeted therapy.;CSF3R mutations are uncommon in AML; however, when they occur, they are often associated with core-binding factor gene abnormalities and CEBPAdm. An in-depth understanding of the interaction between these genetic alterations could facilitate a clearer understanding of the role of CSF3R mutations in AML development and may be used for disease classification, prognosis, and the development of targeted therapy.;CSF3R mutations are uncommon in AML; however, when they occur, they are often associated with core-binding factor gene abnormalities and CEBPAdm. An in-depth understanding of the interaction between these genetic alterations could facilitate a clearer understanding of the role of CSF3R mutations in AML development and may be used for disease classification, prognosis, and the development of targeted therapy.;CSF3R mutations are uncommon in AML; however, when they occur, they are often associated with core-binding factor gene abnormalities and CEBPAdm. An in-depth understanding of the interaction between these genetic alterations could facilitate a clearer understanding of the role of CSF3R mutations in AML development and may be used for disease classification, prognosis, and the development of targeted therapy.

About TF

TF name : RUNX1(AML1,AML1-EVI-1,AMLCR1,CBF2alpha,CBFA2,EVI-1,PEBP2aB,PEBP2alpha)CBFBCEBPA(C/EBP-alpha,CEBP)
TF experiment: DNA-Seq,RT-PCR,Mutation Analysis,
TF experiment description: CSF3R mutations are uncommon in AML; however, when they occur, they are often associated with core-binding factor gene abnormalities and CEBPAdm. An in-depth understanding of the interaction between these genetic alterations could facilitate a clearer understanding of the role of CSF3R mutations in AML development and may be used for disease classification, prognosis, and the development of targeted therapy.;CSF3R mutations are uncommon in AML; however, when they occur, they are often associated with core-binding factor gene abnormalities and CEBPAdm. An in-depth understanding of the interaction between these genetic alterations could facilitate a clearer understanding of the role of CSF3R mutations in AML development and may be used for disease classification, prognosis, and the development of targeted therapy.;CSF3R mutations are uncommon in AML; however, when they occur, they are often associated with core-binding factor gene abnormalities and CEBPAdm. An in-depth understanding of the interaction between these genetic alterations could facilitate a clearer understanding of the role of CSF3R mutations in AML development and may be used for disease classification, prognosis, and the development of targeted therapy.;CSF3R mutations are uncommon in AML; however, when they occur, they are often associated with core-binding factor gene abnormalities and CEBPAdm. An in-depth understanding of the interaction between these genetic alterations could facilitate a clearer understanding of the role of CSF3R mutations in AML development and may be used for disease classification, prognosis, and the development of targeted therapy.;CSF3R mutations are uncommon in AML; however, when they occur, they are often associated with core-binding factor gene abnormalities and CEBPAdm. An in-depth understanding of the interaction between these genetic alterations could facilitate a clearer understanding of the role of CSF3R mutations in AML development and may be used for disease classification, prognosis, and the development of targeted therapy.

About Function

Enhancer function : CSF3R mutations are uncommon in AML; however, when they occur, they are often associated with core-binding factor gene abnormalities and CEBPAdm. An in-depth understanding of the interaction between these genetic alterations could facilitate a clearer understanding of the role of CSF3R mutations in AML development and may be used for disease classification, prognosis, and the development of targeted therapy.
Enhancer function experiment: Immunohistochemical staining
Enhancer function
experiment description:		 CSF3R mutations are uncommon in AML; however, when they occur, they are often associated with core-binding factor gene abnormalities and CEBPAdm. An in-depth understanding of the interaction between these genetic alterations could facilitate a clearer understanding of the role of CSF3R mutations in AML development and may be used for disease classification, prognosis, and the development of targeted therapy.

About SNP

SNP ID: --

Upstream Pathway Annotation of TF

GeneName Pathway Name Source Gene Number
RUNX1 AndrogenReceptor netpath 167
RUNX1 Organic cation transport reactome 9
RUNX1 RANKL netpath 84
RUNX1 Regulation of nuclear SMAD2/3 signaling pid 82
RUNX1 TGF_beta_Receptor netpath 220
RUNX1 Validated transcriptional targets of deltaNp63 isoforms pid 47
RUNX1 Pathways in cancer kegg 321
RUNX1 Chronic myeloid leukemia kegg 69
RUNX1 Acute myeloid leukemia kegg 53
CBFB AP-1 transcription factor network pid 71
CBFB ATF-2 transcription factor network pid 59
CBFB Regulation of nuclear SMAD2/3 signaling pid 82
CEBPA AndrogenReceptor netpath 167
CEBPA C-MYB transcription factor network pid 87
CEBPA E2F transcription factor network pid 77
CEBPA EGFR1 netpath 475
CEBPA FOXA2 and FOXA3 transcription factor networks pid 45
CEBPA IL4 netpath 75
CEBPA Regulation of Androgen receptor activity pid 54
CEBPA Regulation of retinoblastoma protein pid 67
CEBPA Transcriptional regulation of white adipocyte differentiation reactome 79
CEBPA Validated targets of C-MYC transcriptional repression pid 63
CEBPA Pathways in cancer kegg 321
CEBPA Acute myeloid leukemia kegg 53
CEBPA Hs_Regulation_of_Actin_Cytoskeleton_WP51_79977 wikipathways 36
CEBPA Hs_Pathways_Affected_in_Adenoid_Cystic_Carcinoma_WP3651_89271 wikipathways 27
CEBPA Hs_Nucleotide_Metabolism_WP404_68960 wikipathways 16
CEBPA Hs_Transcription_factor_regulation_in_adipogenesis_WP3599_88581 wikipathways 9

Enhancer associated network

The number on yellow line represents the distance between enhancer and target gene

Expression of target genes for the enhancer

Enhancer associated SNPs