about
Genetic polymorphisms in MTHFR 677 and 1298, GSTM1 and T1, and metabolism of arsenicDietary intake and arsenic methylation in a U.S. populationMetabolism of low-dose inorganic arsenic in a central European population: influence of sex and genetic polymorphismsGenetic polymorphisms influencing arsenic metabolism: evidence from ArgentinaBiokinetics and subchronic toxic effects of oral arsenite, arsenate, monomethylarsonic acid, and dimethylarsinic acid in v-Ha-ras transgenic (Tg.AC) mice.Nutritional status has marginal influence on the metabolism of inorganic arsenic in pregnant Bangladeshi womenBreast-feeding protects against arsenic exposure in Bangladeshi infantsDifferences in urinary arsenic metabolites between diabetic and non-diabetic subjects in BangladeshAssociation between polymorphisms in arsenic metabolism genes and urinary arsenic methylation profiles in girls and boys chronically exposed to arsenicArsenic-Associated Changes to the Epigenome: What Are the Functional Consequences?In utero and early childhood exposure to arsenic decreases lung function in childrenDeterminants and Consequences of Arsenic Metabolism Efficiency among 4,794 Individuals: Demographics, Lifestyle, Genetics, and ToxicityArsenic exposure in pregnancy increases the risk of lower respiratory tract infection and diarrhea during infancy in BangladeshArsenic methylation and lung and bladder cancer in a case-control study in northern ChileUrine arsenic concentrations and species excretion patterns in American Indian communities over a 10-year period: the Strong Heart StudyHealth effects of arsenic and chromium in drinking water: recent human findingsIndividual differences in arsenic metabolism and lung cancer in a case-control study in Cordoba, ArgentinaOxidative stress, epigenetics, and cancer stem cells in arsenic carcinogenesis and preventionUrinary arsenic profiles reveal exposures to inorganic arsenic from private drinking water supplies in Cornwall, UKArsenic exposure and the induction of human cancersUrinary arsenic metabolites in children and adults exposed to arsenic in drinking water in Inner Mongolia, ChinaEffects of arsenic exposure on DNA methylation and epigenetic gene regulationHeritability and preliminary genome-wide linkage analysis of arsenic metabolites in urineConsumption of low-moderate level arsenic contaminated water does not increase spontaneous pregnancy loss: a case control studyArsenic induces functional re-expression of estrogen receptor α by demethylation of DNA in estrogen receptor-negative human breast cancerPregnant women in Timis County, Romania are exposed primarily to low-level (<10μg/l) arsenic through residential drinking water consumptionAS3MT-mediated tolerance to arsenic evolved by multiple independent horizontal gene transfers from bacteria to eukaryotes.Arsenate-induced apoptosis in murine embryonic maxillary mesenchymal cells via mitochondrial-mediated oxidative injuryLevels of infants' urinary arsenic metabolites related to formula feeding and weaning with rice products exceeding the EU inorganic arsenic standard.Nutlin-3 overcomes arsenic trioxide resistance and tumor metastasis mediated by mutant p53 in Hepatocellular Carcinoma.Long-term health consequences of prenatal arsenic exposure: links to the genome and the epigenome.Neonatal Metabolomic Profiles Related to Prenatal Arsenic ExposureThe Methylation Capacity of Arsenic and Insulin Resistance are Associated with Psychological Characteristics in Children and Adolescents.Impact of smoking and chewing tobacco on arsenic-induced skin lesionsDistinct arsenic metabolites following seaweed consumption in humansAssessment of human dietary exposure to arsenic through rice.Association of arsenobetaine with beta-cell function assessed by homeostasis model assessment (HOMA) in nondiabetic Koreans: data from the fourth Korea National Health and Nutrition Examination Survey (KNHANES) 2008-2009Differences of urinary arsenic metabolites and methylation capacity between individuals with and without skin lesions in Inner Mongolia, Northern China.Exposure to multiple metals from groundwater-a global crisis: geology, climate change, health effects, testing, and mitigation.Frequency of two human glutathione-S-transferase omega-1 polymorphisms (E155 deletion and E208K) in Ovambo and Japanese populations using the PCR-based genotyping method.
P2860
Q23911284-EC1CB3BE-01AD-41D4-807A-506AE3123C3DQ23911286-D57FDCCF-56FA-451E-A91A-A04C33025887Q24678196-012B2F89-70DE-4991-8157-54991F0C8A29Q24683081-79A729B4-12B6-49DD-BC7C-517F105A7AABQ24813432-F6EC36CC-8795-4B30-8EF0-4BE122B4D405Q28383595-C030E5F7-2690-4E63-872A-A96E0524A1C6Q28384817-F883199E-8620-43CA-9F13-0B356DB1F273Q28385521-CD38162A-14E3-4CC5-82A9-D5B0911E55A3Q28386218-A587E5AC-618B-4327-9795-6FE6E5CAF9E3Q28386272-75EFF54C-67CC-4016-9672-80EABECB8B0BQ28386616-B82F1F4B-4918-4E2E-B591-AFB60E8770D7Q28388011-ACCA5E79-F264-4662-A454-8421B9B8F9F1Q28388550-8FD46121-6B43-4B12-B9BA-7E568CE59F27Q28388822-4374F60D-C13A-4394-B59D-B3765438B37EQ28390833-DB9DD78F-70D1-4736-81BD-E080DD5DD66DQ28391583-89362DD9-2EE0-4113-AB95-62C1CD7F9ACCQ28392195-E47ECD32-ABBE-472E-83A4-268FC0978D7CQ28393227-CCEBDB5E-02F6-4B97-8126-E9831091A485Q28393967-591A7EB1-7344-44DB-A1A4-573983A75DA3Q28394700-85C6B4E3-7425-494A-BF66-B8C3FDEE2746Q28395532-9FEE65F9-9D7A-49FF-8D70-4EB91A1B8D68Q28395938-7EB84555-C76E-45DD-9B61-D3ADBAF75BFEQ28396689-1D6AE07D-96A3-41E3-BBD6-D5ECDB44B32CQ28396957-EBC69852-1298-4861-9AEE-2252DB1B81CDQ28482827-079DAA27-84AD-4480-BD47-F7886531C664Q28648139-0F99FBB5-BC71-438F-A3C4-827D437ED103Q33584549-9F95FD25-985C-43B9-B44B-BF4B4F29FEC7Q33590635-71AC2DBE-FB2D-4E82-B728-F72E241D4A72Q33637656-DF7850A7-974B-430D-B1EF-C268536804BFQ33713544-B72E3CC6-7A19-4458-9C75-4F2F88ED11A5Q33725591-59A7919A-7052-4363-BDE7-369DBFED6E68Q33769515-89302AED-4A7B-45E3-BE9B-AF09571239F4Q33779996-B292ACFB-5E21-4015-94E9-E6C536B9C7ADQ33789792-81C3FDCE-7CA4-4D84-B2DE-B61686F9D3EFQ33819084-9645A5B5-0285-4860-B642-8D58C65B90FDQ33885496-820494B0-AFCE-4639-88BE-495608D5FCC6Q33892620-5773D4B1-346B-4B18-B71D-AC43B8B17321Q33963931-FA347E31-95AE-46A7-BB14-C4F739E22FA5Q33964023-B562CAA3-A840-420F-A8FE-98B969530AAAQ34004003-2140FF55-4E4C-425C-A465-B60B735A688A
P2860
description
2002 nî lūn-bûn
@nan
2002 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Mechanisms of arsenic biotransformation.
@ast
Mechanisms of arsenic biotransformation.
@en
Mechanisms of arsenic biotransformation.
@nl
type
label
Mechanisms of arsenic biotransformation.
@ast
Mechanisms of arsenic biotransformation.
@en
Mechanisms of arsenic biotransformation.
@nl
prefLabel
Mechanisms of arsenic biotransformation.
@ast
Mechanisms of arsenic biotransformation.
@en
Mechanisms of arsenic biotransformation.
@nl
P1433
P1476
Mechanisms of arsenic biotransformation.
@en
P2093
Marie Vahter
P304
P356
10.1016/S0300-483X(02)00285-8
P407
P478
P577
2002-12-01T00:00:00Z