The MRP2/cMOAT transporter and arsenic-glutathione complex formation are required for biliary excretion of arsenic.
about
Mathematical model of uptake and metabolism of arsenic(III) in human hepatocytes - Incorporation of cellular antioxidant response and threshold-dependent behaviorEnhanced expression of multidrug resistance-associated protein 2 and reduced expression of aquaglyceroporin 3 in an arsenic-resistant human cell lineMetallothionein blocks oxidative DNA damage induced by acute inorganic arsenic exposureMolecular features in arsenic-induced lung tumorsMethylarsonous acid causes oxidative DNA damage in cells independent of the ability to biomethylate inorganic arsenicGlutathione protects cells against arsenite-induced toxicityGlobal analysis of cellular factors and responses involved in Pseudomonas aeruginosa resistance to arsenite.Metabolism, toxicity and anticancer activities of arsenic compounds.Dimethylarsinothioyl glutathione as a metabolite in human multiple myeloma cell lines upon exposure to DarinaparsinOncogenomic disruptions in arsenic-induced carcinogenesis.Mathematical modeling of the effects of glutathione on arsenic methylationNutlin-3 overcomes arsenic trioxide resistance and tumor metastasis mediated by mutant p53 in Hepatocellular Carcinoma.Temporal transcriptomic response during arsenic stress in Herminiimonas arsenicoxydans.Arsenic-specific stem cell selection during malignant transformation.Arsenic detoxification and evolution of trimethylarsine gas by a microbial arsenite S-adenosylmethionine methyltransferase.Methylarsonous acid transport by aquaglyceroporins.Methylated arsenicals: the implications of metabolism and carcinogenicity studies in rodents to human risk assessment.Biochemistry of arsenic detoxification.ABC of oral bioavailability: transporters as gatekeepers in the gut.A case-control study of GST polymorphisms and arsenic related skin lesions.Identification of the GST-T1 and GST-M1 null genotypes using high resolution melting analysisArsenic and antimony transporters in eukaryotesThe ABC transporters MDR1 and MRP2: multiple functions in disposition of xenobiotics and drug resistance.The importance of stereochemically active lone pairs for influencing Pb(II) and As(III) protein bindingToxicity of a trivalent organic arsenic compound, dimethylarsinous glutathione in a rat liver cell line (TRL 1215)Molecular and ionic mimicry and the transport of toxic metals.Altered arsenic disposition in experimental nonalcoholic fatty liver disease.Environmentally Relevant Concentrations of Arsenite Induce Dose-Dependent Differential Genotoxicity Through Poly(ADP-Ribose) Polymerase Inhibition and Oxidative Stress in Mouse Thymus Cells.Transmembrane transport of endo- and xenobiotics by mammalian ATP-binding cassette multidrug resistance proteins.Gene expression levels in normal human lymphoblasts with variable sensitivities to arsenite: identification of GGT1 and NFKBIE expression levels as possible biomarkers of susceptibility.Tissue dosimetry, metabolism and excretion of pentavalent and trivalent monomethylated arsenic in mice after oral administrationMetabolism and toxicity of arsenic in human urothelial cells expressing rat arsenic (+3 oxidation state)-methyltransferase.Effect of MRP2 and MRP3 Polymorphisms on Anastrozole Glucuronidation and MRP2 and MRP3 Gene Expression in Normal Liver Samples.Functional analysis of nonsynonymous single nucleotide polymorphisms of multidrug resistance-associated protein 2 (ABCC2).Speciation of arsenic in exfoliated urinary bladder epithelial cells from individuals exposed to arsenic in drinking water.Nrf2 protects human bladder urothelial cells from arsenite and monomethylarsonous acid toxicity.Arsenic Metabolism in Children Differs From That in Adults.Aquaglyceroporins and metalloid transport: implications in human diseases.SLCO1B1 variants and urine arsenic metabolites in the Strong Heart Family Study.Reduced arsenic clearance and increased toxicity in aquaglyceroporin-9-null mice.
P2860
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P2860
The MRP2/cMOAT transporter and arsenic-glutathione complex formation are required for biliary excretion of arsenic.
description
2000 nî lūn-bûn
@nan
2000 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
The MRP2/cMOAT transporter and ...... biliary excretion of arsenic.
@ast
The MRP2/cMOAT transporter and ...... biliary excretion of arsenic.
@en
type
label
The MRP2/cMOAT transporter and ...... biliary excretion of arsenic.
@ast
The MRP2/cMOAT transporter and ...... biliary excretion of arsenic.
@en
prefLabel
The MRP2/cMOAT transporter and ...... biliary excretion of arsenic.
@ast
The MRP2/cMOAT transporter and ...... biliary excretion of arsenic.
@en
P2093
P2860
P356
P1476
The MRP2/cMOAT transporter and ...... biliary excretion of arsenic.
@en
P2093
Lieberman MW
P2860
P304
33404-33408
P356
10.1074/JBC.M007030200
P407
P577
2000-10-01T00:00:00Z