Detail Information of Transcriptional Regulations
General Information of Drug Transporter (DT) | |||||
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DT ID | DTD0158 Transporter Info | ||||
Gene Name | SLC23A1 | ||||
Transporter Name | Sodium-dependent vitamin C transporter 1 | ||||
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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CEBPA |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [1] | ||||
TF Protein Name |
CCAAT/enhancer-binding protein alpha | Transcription Factor Info | ||||
Tissue |
Blood; Liver | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
CCAAT/enhancer-binding protein alpha (CEBPA) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
CEBPB |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [2] | ||||
TF Protein Name |
CCAAT/enhancer-binding protein beta | Transcription Factor Info | ||||
Tissue |
Bone | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
CCAAT/enhancer-binding protein beta (CEBPB) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
Class 1.2: Basic helix-loop-helix factors |
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MYOD1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [3] | ||||
TF Protein Name |
Myoblast determination protein 1 | Transcription Factor Info | ||||
Tissue |
Myotube | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Myoblast determination protein 1 (MYOD1) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
TCF12 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [4] | ||||
TF Protein Name |
Transcription factor 12 | Transcription Factor Info | ||||
Tissue |
Blood; Uterus | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Transcription factor 12 (TCF12) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
TCF3 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [1] | ||||
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 SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
TFAP4 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [2] | ||||
TF Protein Name |
Transcription factor AP-4 | 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 AP-4 (TFAP4) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
Class 1.3: Basic helix-span-helix factors |
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TFAP2C |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [4] | ||||
TF Protein Name |
Transcription factor AP-2 gamma | 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 AP-2 gamma (TFAP2C) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
Class 2.1: Nuclear receptors with C4 zinc fingers |
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NR2F2 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [4] | ||||
TF Protein Name |
COUP transcription factor 2 | Transcription Factor Info | ||||
Tissue |
Breast | |||||
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 SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
PPARA |
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Transcriptional Phenomenon 1 |
Activation of SLC23A1 gene in health condition | [5] | ||||
TF Protein Name |
Peroxisome proliferator-activated receptor alpha | Transcription Factor Info | ||||
Studied Phenotype |
Heallth [ICD11: N.A] | |||||
Tissue |
Intestine | |||||
Related DT Changes |
Up regulating | |||||
Experimental Material |
C57BL/6 mice | |||||
Detailed Description |
Peroxisome proliferator-activated receptor alpha (PPARA) has been reported to activate the transcription of SLC23A1 gene in health condition, which leads to an increased expression of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
RXRG |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [1] | ||||
TF Protein Name |
Retinoic acid receptor RXR-gamma | Transcription Factor Info | ||||
Tissue |
Blood | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Retinoic acid receptor RXR-gamma (RXRG) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
Class 2.2: Other C4 zinc finger-type factors |
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GATA1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [2] | ||||
TF Protein Name |
Erythroid transcription factor | 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 |
Erythroid transcription factor (GATA1) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
Class 2.3: C2H2 zinc finger factors |
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CTCF |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [4] | ||||
TF Protein Name |
Transcriptional repressor CTCF | Transcription Factor Info | ||||
Tissue |
Brain | |||||
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 SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
EGR1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [1] | ||||
TF Protein Name |
Early growth response protein 1 | Transcription Factor Info | ||||
Tissue |
Blood | |||||
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 SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
KLF1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [3] | ||||
TF Protein Name |
Krueppel-like factor 1 | Transcription Factor Info | ||||
Tissue |
Blood | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Krueppel-like factor 1 (KLF1) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
KLF4 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [4] | ||||
TF Protein Name |
Krueppel-like factor 4 | Transcription Factor Info | ||||
Tissue |
Foreskin; Pancreatic ductal; Skin | |||||
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 SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
KLF5 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [3] | ||||
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 SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
MAZ |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [1] | ||||
TF Protein Name |
Myc-associated zinc finger protein | Transcription Factor Info | ||||
Tissue |
Blood; Bone marrow; Cervix; Liver; 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 SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
SP1 |
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Transcriptional Phenomenon 1 |
Activation of SLC23A1 gene in bacteria infection condition | [6] | ||||
TF Protein Name |
Transcription factor Sp1 | Transcription Factor Info | ||||
Affected Drug/Substrate |
Ascorbic acid | |||||
Studied Phenotype |
Bacteria infection [ICD11: 1A00-1C4Z] | |||||
Tissue |
Jejunum | |||||
Related DT Changes |
Up regulating | |||||
Experimental Material |
C57BL/6 mice | |||||
Detailed Description |
Transcription factor Sp1 (SP1) has been reported to activate the transcription of SLC23A1 gene in bacteria infection condition, which leads to an increased expression of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
ZBTB7A |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [2] | ||||
TF Protein Name |
Zinc finger and BTB domain-containing protein 7A | Transcription Factor Info | ||||
Tissue |
Bone marrow; Uterus | |||||
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 SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
ZNF263 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [2] | ||||
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 SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
Class 3.1: Homeo domain factors |
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HNF1A |
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Transcriptional Phenomenon 1 |
Activation of SLC23A1 gene in hepatoblastoma condition | [7] | ||||
TF Protein Name |
Hepatocyte nuclear factor 1-alpha | Transcription Factor Info | ||||
Affected Drug/Substrate |
Ascorbic acid | |||||
Studied Phenotype |
Hepatoblastoma [ICD11: 2C12.01] | |||||
Tissue |
Liver | |||||
Related DT Changes |
Up regulating | |||||
Experimental Material |
Human hepatoblastoma cells (HepG2) | |||||
Detailed Description |
Hepatocyte nuclear factor 1-alpha (HNF1A) has been reported to activate the transcription of SLC23A1 gene in hepatoblastoma condition, which leads to an increased expression of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
Transcriptional Phenomenon 2 |
Activation of SLC23A1 gene in bacteria infection condition | [6] | ||||
TF Protein Name |
Hepatocyte nuclear factor 1-alpha | Transcription Factor Info | ||||
Affected Drug/Substrate |
Ascorbic acid | |||||
Studied Phenotype |
Bacteria infection [ICD11: 1A00-1C4Z] | |||||
Tissue |
Jejunum | |||||
Related DT Changes |
Up regulating | |||||
Experimental Material |
C57BL/6 mice | |||||
Detailed Description |
Hepatocyte nuclear factor 1-alpha (HNF1A) has been reported to activate the transcription of SLC23A1 gene in bacteria infection condition, which leads to an increased expression of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
HNF1B |
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Transcriptional Phenomenon 1 |
Activation of SLC23A1 gene in hepatoblastoma condition | [7] | ||||
TF Protein Name |
Hepatocyte nuclear factor 1-beta | Transcription Factor Info | ||||
Affected Drug/Substrate |
Ascorbic acid | |||||
Studied Phenotype |
Hepatoblastoma [ICD11: 2C12.01] | |||||
Tissue |
Liver | |||||
Related DT Changes |
Up regulating | |||||
Experimental Material |
Human hepatoblastoma cells (HepG2) | |||||
Detailed Description |
Hepatocyte nuclear factor 1-beta (HNF1B) has been reported to activate the transcription of SLC23A1 gene in hepatoblastoma condition, which leads to an increased expression of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
Transcriptional Phenomenon 2 |
Activation of SLC23A1 gene in renal cysts condition | [8] | ||||
TF Protein Name |
Hepatocyte nuclear factor 1-beta | Transcription Factor Info | ||||
Studied Phenotype |
Renal cysts [ICD11: GB80] | |||||
Tissue |
Kidney | |||||
Related DT Changes |
Up regulating | |||||
Experimental Material |
Zebrafish TgPT::EGFP) | |||||
Detailed Description |
Hepatocyte nuclear factor 1-beta (HNF1B) has been reported to activate the transcription of SLC23A1 gene in renal cysts condition, which leads to an increased expression of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
POU2F1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [2] | ||||
TF Protein Name |
POU domain, class 2, transcription factor 1 | Transcription Factor Info | ||||
Tissue |
Blood | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
POU domain, class 2, transcription factor 1 (POU2F1) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
Class 3.5: Tryptophan cluster factors |
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ELF1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [2] | ||||
TF Protein Name |
ETS-related transcription factor Elf-1 | Transcription Factor Info | ||||
Tissue |
Blood; Breast; Liver; Lung; Mesenchymal | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
ETS-related transcription factor Elf-1 (ELF1) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
ETS1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [3] | ||||
TF Protein Name |
Protein C-ets-1 | Transcription Factor Info | ||||
Tissue |
Blood; Bone; Bone marrow; Vein | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Protein C-ets-1 (ETS1) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
FLI1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [3] | ||||
TF Protein Name |
Friend leukemia integration 1 transcription factor | Transcription Factor Info | ||||
Tissue |
Blood; Mesenchymal; Vein | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Friend leukemia integration 1 transcription factor (FLI1) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
GABPA |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [4] | ||||
TF Protein Name |
GA-binding protein alpha chain | Transcription Factor Info | ||||
Tissue |
Blood; Breast; Cervix; Liver; Lung; Mesenchymal; Prostate | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
GA-binding protein alpha chain (GABPA) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
IRF1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [4] | ||||
TF Protein Name |
Interferon regulatory factor 1 | Transcription Factor Info | ||||
Tissue |
Aorta | |||||
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 SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
IRF4 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [1] | ||||
TF Protein Name |
Interferon regulatory factor 4 | Transcription Factor Info | ||||
Tissue |
Blood | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Interferon regulatory factor 4 (IRF4) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
MYB |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [1] | ||||
TF Protein Name |
Transcriptional activator Myb | Transcription Factor Info | ||||
Tissue |
Blood | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Transcriptional activator Myb (MYB) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
SPI1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [3] | ||||
TF Protein Name |
Transcription factor PU.1 | Transcription Factor Info | ||||
Tissue |
Adrenal gland; Blood; Bone marrow; 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 SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
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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NFYB |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [3] | ||||
TF Protein Name |
Nuclear transcription factor Y subunit beta | Transcription Factor Info | ||||
Tissue |
Cervix | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Nuclear transcription factor Y subunit beta (NFYB) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
Class 5.1: MADS box factors |
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SRF |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [3] | ||||
TF Protein Name |
Serum response factor | Transcription Factor Info | ||||
Tissue |
Embryo | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Serum response factor (SRF) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
Class 6.1: Rel homology region factors |
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EBF1 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [4] | ||||
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 SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
NFKB1 |
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Transcriptional Phenomenon 1 |
Repression of SLC23A1 gene in enterotoxigenic Escherichia coli infection condition | [9] | ||||
TF Protein Name |
Nuclear factor NF-kappa-B p105 subunit | Transcription Factor Info | ||||
Affected Drug/Substrate |
Ascorbic acid | |||||
Studied Phenotype |
Enterotoxigenic Escherichia coli infection [ICD11: 1A03.1] | |||||
Tissue |
Jejunum | |||||
Related DT Changes |
Down regulating | |||||
Experimental Material |
BALB/c mice | |||||
Detailed Description |
Nuclear factor NF-kappa-B p105 subunit (NFKB1) has been reported to repress the transcription of SLC23A1 gene in enterotoxigenic Escherichia coli infection condition, which leads to a decreased expression of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
RBPJ |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [2] | ||||
TF Protein Name |
Recombining binding protein suppressor of hairless | Transcription Factor Info | ||||
Tissue |
Blood; Bone; Bone marrow | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Recombining binding protein suppressor of hairless (RBPJ) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
Class 6.7: Grainyhead domain factors |
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GRHL2 |
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Transcriptional Phenomenon 1 |
Direct binding to SLC23A1 gene | [1] | ||||
TF Protein Name |
Grainyhead-like protein 2 homolog | Transcription Factor Info | ||||
Tissue |
Breast; Bronchus; Ovary; Prostate | |||||
Related DT Changes |
Direct regulating | |||||
Experiment method |
TF-transporter regulations were collected from ChIP-Seq datasets. | |||||
Detailed Description |
Grainyhead-like protein 2 homolog (GRHL2) can directly bind to the SLC23A1 gene, which in turn affects the expression or function of the drug transporter Sodium-dependent vitamin C transporter 1. | |||||
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