Detail Information of Transcriptional Regulations

General Information of Drug Transporter (DT)
DT ID DTD0392 Transporter Info
Gene Name SLC51B
Transporter Name Organic solute transporter subunit beta
Gene ID
123264
UniProt ID
Q86UW2

Transcriptional Regulation of This DT (TSR)

TF Superclass 1: Basic domains

      Class 1.1: Basic leucine zipper factors

Click to Show/Hide the Full List of 2 TF(s) Regulating This DT

        ATF3 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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

Click to Show/Hide the Full List of 6 TF(s) Regulating This DT

        ASCL1 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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

Click to Show/Hide the Full List of 1 TF(s) Regulating This DT

        TFAP2C 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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.

TF Superclass 2: Zinc-coordinating DNA-binding domains

      Class 2.1: Nuclear receptors with C4 zinc fingers

Click to Show/Hide the Full List of 4 TF(s) Regulating This DT

        NR1H4 

Click to Show/Hide to Show 4 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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

Click to Show/Hide the Full List of 9 TF(s) Regulating This DT

        CTCF 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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.

TF Superclass 3: Helix-turn-helix domains

      Class 3.1: Homeo domain factors

Click to Show/Hide the Full List of 1 TF(s) Regulating This DT

        PBX1 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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

Click to Show/Hide the Full List of 3 TF(s) Regulating This DT

        E2F1 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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

Click to Show/Hide the Full List of 3 TF(s) Regulating This DT

        ERG 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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

Click to Show/Hide the Full List of 2 TF(s) Regulating This DT

        ARID3A 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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

      Class 4.2: Heteromeric CCAAT-binding factors

Click to Show/Hide the Full List of 1 TF(s) Regulating This DT

        NFYA 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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.

TF Superclass 6: Immunoglobulin fold

      Class 6.1: Rel homology region factors

Click to Show/Hide the Full List of 1 TF(s) Regulating This DT

        EBF1 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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

Click to Show/Hide the Full List of 1 TF(s) Regulating This DT

        RUNX3 

Click to Show/Hide to Show 1 Transcriptional Phenomena      

       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.
References
1 Closure of the NCBI SRA and implications for the long-term future of genomics data storage. Genome Biol. 2011;12(3):402.
2 The Encyclopedia of DNA elements (ENCODE): data portal update. Nucleic Acids Res. 2018 Jan 4;46(D1):D794-D801
3 NCBI GEO: archive for functional genomics data sets--update. Nucleic Acids Res. 2013 Jan;41(D1):D991-5.
4 hTFtarget: A Comprehensive Database for Regulations of Human Transcription Factors and Their Targets. Genomics Proteomics Bioinformatics. 2020 Apr;18(2):120-431. (ID:ENSG00000186198)
5 FXR regulates organic solute transporters alpha and beta in the adrenal gland, kidney, and intestine. J Lipid Res. 2006 Jan;47(1):201-14.; 2006 Jan;47(1):201-14.
6 Regulation of the mouse organic solute transporter alpha-beta, Ostalpha-Ostbeta, by bile acids. Am J Physiol Gastrointest Liver Physiol. 2006 May;290(5):G912-22.
7 The organic solute transporters alpha and beta are induced by hypoxia in human hepatocytes. Liver Int. 2015 Apr;35(4):1152-61.
8 Characterization and treatment of persistent hepatocellular secretory failure. Liver Int. 2015 Apr;35(4):1478-88.

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