Detail Information of Transcriptional Regulations
General Information of Drug Transporter (DT) | |||||
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DT ID | DTD0392 Transporter Info | ||||
Gene Name | SLC51B | ||||
Transporter Name | Organic solute transporter subunit beta | ||||
Gene ID | |||||
UniProt ID | |||||
Transcriptional Regulation of This DT (TSR) | ||||||
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Class 1.1: Basic leucine zipper factors |
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ATF3 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [1] | ||||
TF Protein Name |
Cyclic AMP-dependent transcription factor ATF-3 | Transcription Factor Info | ||||
Tissue |
Blood; Colon | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Cyclic AMP-dependent transcription factor ATF-3 (ATF3) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
CREB1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [2] | ||||
TF Protein Name |
Cyclic AMP-responsive element-binding protein 1 | Transcription Factor Info | ||||
Tissue |
Blood; Liver | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Cyclic AMP-responsive element-binding protein 1 (CREB1) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
Class 1.2: Basic helix-loop-helix factors |
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ASCL1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [3] | ||||
TF Protein Name |
Achaete-scute homolog 1 | Transcription Factor Info | ||||
Tissue |
Lung | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Achaete-scute homolog 1 (ASCL1) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
MAX |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [1] | ||||
TF Protein Name |
Protein max | Transcription Factor Info | ||||
Tissue |
Blood; Bone marrow; Brain; Breast; Embryo; Lung; Uterus | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Protein max (MAX) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
MXI1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [2] | ||||
TF Protein Name |
Max-interacting protein 1 | Transcription Factor Info | ||||
Tissue |
Brain; Embryo | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Max-interacting protein 1 (MXI1) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
TCF3 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [4] | ||||
TF Protein Name |
Transcription factor E2-alpha | Transcription Factor Info | ||||
Tissue |
Blood; Bone marrow | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Transcription factor E2-alpha (TCF3) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
USF1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [4] | ||||
TF Protein Name |
Upstream stimulatory factor 1 | Transcription Factor Info | ||||
Tissue |
Bone marrow; Brain; Colon; Embryo; Liver; Lung; Uterus | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Upstream stimulatory factor 1 (USF1) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
USF2 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [3] | ||||
TF Protein Name |
Upstream stimulatory factor 2 | Transcription Factor Info | ||||
Tissue |
Blood; Cervix; Embryo; Liver | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Upstream stimulatory factor 2 (USF2) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
Class 1.3: Basic helix-span-helix factors |
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TFAP2C |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [4] | ||||
TF Protein Name |
Transcription factor AP-2 gamma | Transcription Factor Info | ||||
Tissue |
Breast; Cervix | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Transcription factor AP-2 gamma (TFAP2C) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
Class 2.1: Nuclear receptors with C4 zinc fingers |
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NR1H4 |
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Transcriptional Phenomenon 1 |
Activation of SLC51B gene in adrenal cortex carcinoma condition | [5] | ||||
TF Protein Name |
Bile acid receptor | Transcription Factor Info | ||||
Studied Phenotype |
Adrenal cortex carcinoma [2D11.Z] | |||||
Tissue |
Adrenal gland | |||||
Related DT Changes |
up regulating | |||||
Experimental Material |
Human adrenal cortex carcinoma cells (H295R) | |||||
Detailed Description |
Bile acid receptor (NR1H4), influenced by the metabolite from Host unspecified microbiota, has been reported to activate the transcription of SLC51B gene in adrenal cortex carcinoma condition, which leads to an increased expression of the drug transporter Organic solute transporter subunit beta. | |||||
Transcriptional Phenomenon 2 |
Activation of SLC51B gene in colon cancer condition | [6] | ||||
TF Protein Name |
Bile acid receptor | Transcription Factor Info | ||||
Studied Phenotype |
Colon cancer [ICD11: 2B90] | |||||
Tissue |
Colon | |||||
Related DT Changes |
up regulating | |||||
Experimental Material |
Mouse colon adenocarcinoma cells (CT26) | |||||
Detailed Description |
Bile acid receptor (NR1H4), influenced by the metabolite from Host unspecified microbiota, has been reported to activate the transcription of SLC51B gene in colon cancer condition, which leads to an increased expression of the drug transporter Organic solute transporter subunit beta. | |||||
Transcriptional Phenomenon 3 |
Activation of SLC51B gene in hepatocellular carcinoma condition | [7] | ||||
TF Protein Name |
Bile acid receptor | Transcription Factor Info | ||||
Studied Phenotype |
Hepatocellular carcinoma [ICD11: 2C12.02] | |||||
Tissue |
Liver | |||||
Related DT Changes |
up regulating | |||||
Experimental Material |
Human adult hepatocellular carcinoma cells (Huh7) | |||||
Detailed Description |
Bile acid receptor (NR1H4), influenced by the metabolite from Host unspecified microbiota, has been reported to activate the transcription of SLC51B gene in hepatocellular carcinoma condition, which leads to an increased expression of the drug transporter Organic solute transporter subunit beta. | |||||
Transcriptional Phenomenon 4 |
Activation of SLC51B gene in health condition | [6] | ||||
TF Protein Name |
Bile acid receptor | Transcription Factor Info | ||||
Studied Phenotype |
Heallth [ICD11: N.A] | |||||
Tissue |
Ileum | |||||
Related DT Changes |
Up regulating | |||||
Experimental Material |
C57BL/6J mice | |||||
Detailed Description |
Bile acid receptor (NR1H4) has been reported to activate the transcription of SLC51B gene in health condition, which leads to an increased expression of the drug transporter Organic solute transporter subunit beta. | |||||
NR1I2 |
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Transcriptional Phenomenon 1 |
Activation of SLC51B gene in hepatocellular secretory failure condition | [8] | ||||
TF Protein Name |
Nuclear receptor subfamily 1 group I member 2 | Transcription Factor Info | ||||
Studied Phenotype |
Hepatocellular secretory failure [DB91.Z] | |||||
Tissue |
Liver | |||||
Related DT Changes |
up regulating | |||||
Experimental Material |
Human hepatocytes | |||||
Detailed Description |
Nuclear receptor subfamily 1 group I member 2 (NR1I2), influenced by the exogenous rifampin, has been reported to activate the transcription of SLC51B gene in hepatocellular secretory failure condition , which leads to an increased expression of the drug transporter Organic solute transporter subunit beta. | |||||
NR2F2 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [3] | ||||
TF Protein Name |
COUP transcription factor 2 | Transcription Factor Info | ||||
Tissue |
Bone marrow; Breast; Epithelium; Liver | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
COUP transcription factor 2 (NR2F2) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
NR5A2 |
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Transcriptional Phenomenon 1 |
Activation of SLC51B gene in health condition | [6] | ||||
TF Protein Name |
Nuclear receptor subfamily 5 group A member 2 | Transcription Factor Info | ||||
Studied Phenotype |
Heallth [ICD11: N.A] | |||||
Tissue |
Ileum | |||||
Related DT Changes |
Up regulating | |||||
Experimental Material |
C57BL/6J mice | |||||
Detailed Description |
Nuclear receptor subfamily 5 group A member 2 (NR5A2) has been reported to activate the transcription of SLC51B gene in health condition, which leads to an increased expression of the drug transporter Organic solute transporter subunit beta. | |||||
Class 2.3: C2H2 zinc finger factors |
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CTCF |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [3] | ||||
TF Protein Name |
Transcriptional repressor CTCF | Transcription Factor Info | ||||
Tissue |
Blood; Breast | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Transcriptional repressor CTCF (CTCF) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
EGR1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [1] | ||||
TF Protein Name |
Early growth response protein 1 | Transcription Factor Info | ||||
Tissue |
Blood; Bone marrow; Breast; Colon; Uterus | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Early growth response protein 1 (EGR1) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
KLF4 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [2] | ||||
TF Protein Name |
Krueppel-like factor 4 | Transcription Factor Info | ||||
Tissue |
Breast; Pancreatic ductal | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Krueppel-like factor 4 (KLF4) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
KLF5 |
Click to Show/Hide to Show 1 Transcriptional Phenomena |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [2] | ||||
TF Protein Name |
Krueppel-like factor 5 | Transcription Factor Info | ||||
Tissue |
Colon; Pancreatic ductal | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Krueppel-like factor 5 (KLF5) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
KLF9 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [4] | ||||
TF Protein Name |
Krueppel-like factor 9 | Transcription Factor Info | ||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Krueppel-like factor 9 (KLF9) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
MAZ |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [4] | ||||
TF Protein Name |
Myc-associated zinc finger protein | Transcription Factor Info | ||||
Tissue |
Lung | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Myc-associated zinc finger protein (MAZ) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
SP1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [3] | ||||
TF Protein Name |
Transcription factor Sp1 | Transcription Factor Info | ||||
Tissue |
Blood; Colon; Liver; Lung | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Transcription factor Sp1 (SP1) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
ZBTB7A |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [1] | ||||
TF Protein Name |
Zinc finger and BTB domain-containing protein 7A | Transcription Factor Info | ||||
Tissue |
Bone marrow | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Zinc finger and BTB domain-containing protein 7A (ZBTB7A) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
ZNF263 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [1] | ||||
TF Protein Name |
Zinc finger protein 263 | Transcription Factor Info | ||||
Tissue |
Bone marrow; Kidney | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Zinc finger protein 263 (ZNF263) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
Class 3.1: Homeo domain factors |
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PBX1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [4] | ||||
TF Protein Name |
Pre-B-cell leukemia transcription factor 1 | Transcription Factor Info | ||||
Tissue |
Bone marrow | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Pre-B-cell leukemia transcription factor 1 (PBX1) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
Class 3.3: Fork head / winged helix factors |
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E2F1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [3] | ||||
TF Protein Name |
Transcription factor E2F1 | Transcription Factor Info | ||||
Tissue |
Breast | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Transcription factor E2F1 (E2F1) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
E2F6 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [1] | ||||
TF Protein Name |
Transcription factor E2F6 | Transcription Factor Info | ||||
Tissue |
Bone marrow | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Transcription factor E2F6 (E2F6) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
FOXA2 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [4] | ||||
TF Protein Name |
Hepatocyte nuclear factor 3-beta | Transcription Factor Info | ||||
Tissue |
Colon | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Hepatocyte nuclear factor 3-beta (FOXA2) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
Class 3.5: Tryptophan cluster factors |
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ERG |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [2] | ||||
TF Protein Name |
Transcriptional regulator ERG | Transcription Factor Info | ||||
Tissue |
Blood | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Transcriptional regulator ERG (ERG) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
IRF1 |
Click to Show/Hide to Show 1 Transcriptional Phenomena |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [3] | ||||
TF Protein Name |
Interferon regulatory factor 1 | Transcription Factor Info | ||||
Tissue |
Bone marrow; Pancreatic ductal | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Interferon regulatory factor 1 (IRF1) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
SPI1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [3] | ||||
TF Protein Name |
Transcription factor PU.1 | Transcription Factor Info | ||||
Tissue |
Adrenal gland; Blood; Bone marrow; Brain; Breast; Embryo; Foreskin; Heart; Intestine; Kidney; Lung; Muscle; Penis; Placenta; Renal cortex; Renal pelvis; Skin; Spinal cord; Stomach; Testes; Umbilical cord blood | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Transcription factor PU.1 (SPI1) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
Class 3.7: ARID domain factors |
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ARID3A |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [1] | ||||
TF Protein Name |
AT-rich interactive domain-containing protein 3A | Transcription Factor Info | ||||
Tissue |
Liver | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
AT-rich interactive domain-containing protein 3A (ARID3A) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
KDM5B |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [2] | ||||
TF Protein Name |
Lysine-specific demethylase 5B | Transcription Factor Info | ||||
Tissue |
Breast | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Lysine-specific demethylase 5B (KDM5B) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
TF Superclass 4: Other all-alpha-helical DNA-binding domains |
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Class 4.2: Heteromeric CCAAT-binding factors |
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NFYA |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [4] | ||||
TF Protein Name |
Nuclear transcription factor Y subunit alpha | Transcription Factor Info | ||||
Tissue |
Bone marrow | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Nuclear transcription factor Y subunit alpha (NFYA) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
Class 6.1: Rel homology region factors |
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EBF1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [1] | ||||
TF Protein Name |
Transcription factor COE1 | Transcription Factor Info | ||||
Tissue |
Blood | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Transcription factor COE1 (EBF1) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
Class 6.4: Runt domain factors |
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RUNX3 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC51B gene | [2] | ||||
TF Protein Name |
Runt-related transcription factor 3 | Transcription Factor Info | ||||
Tissue |
Blood | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Runt-related transcription factor 3 (RUNX3) can directly bind to the SLC51B gene, which in turn affects the expression or function of the drug transporter Organic solute transporter subunit beta. | |||||
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