about
An Overview of Iron in Term Breast-Fed InfantsThe Potential Role of Iron and Copper in Pediatric Obesity and Nonalcoholic Fatty Liver DiseaseRegulation of brain iron and copper homeostasis by brain barrier systems: implication in neurodegenerative diseasesIron Content Affects Lipogenic Gene Expression in the Muscle of Nelore Beef CattleMechanism of copper transport at the blood-cerebrospinal fluid barrier: influence of iron deficiency in an in vitro modelIron concentrations in breast milk and selected maternal factors of human milk bank donors.The potential for transition metal-mediated neurodegeneration in amyotrophic lateral sclerosisCopper deficiency leads to anemia, duodenal hypoxia, upregulation of HIF-2α and altered expression of iron absorption genes in mice.Dcytb (Cybrd1) functions as both a ferric and a cupric reductase in vitro.Magnesium deficit ? overlooked cause of low vitamin D status?Regulation of brain copper homeostasis by the brain barrier systems: effects of Fe-overload and Fe-deficiency.Duodenal cytochrome b (DCYTB) in iron metabolism: an update on function and regulation.Impairment of interrelated iron- and copper homeostatic mechanisms in brain contributes to the pathogenesis of neurodegenerative disorders.Hereditary iron and copper deposition: diagnostics, pathogenesis and therapeutics.Acquired copper deficiency: a potentially serious and preventable complication following gastric bypass surgery.Iron nutrition in adolescence.Basal expression of copper transporter 1 in intestinal epithelial cells is regulated by hypoxia-inducible factor 2α.Associations of iron status with dietary and other factors in 6-year-old children.Impact of Seminal Chemical Elements on the Oxidative Balance in Bovine Seminal Plasma and Spermatozoa.The discrepancy between the absence of copper deposition and the presence of neuronal damage in the brain of Atp7b(-/-) mice.Copper redistribution in murine macrophages in response to Salmonella infection.Implications of metal exposure and liver function in Parkinsonian patients resident in the vicinities of ferroalloy plants.Hepatic and hippocampus iron status is not altered in response to increased serum ceruloplasmin and serum "free" copper in Wistar rat model for non-Wilsonian brain copper toxicosis.Dietary iron alters waterborne copper-induced gene expression in soft water acclimated zebrafish (Danio rerio).Effect of penicillamine and zinc on iron metabolism in Wilson's disease.Current understanding of iron homeostasis.Effects of wet corn distillers grains with solubles on visceral organ mass, trace mineral status, and polioencephalomalacia biomarkers of individually-fed cattle.Multi-component assessment of worker exposures in a copper refinery. Part 2. Biological exposure indices for copper, nickel and cobalt.Dose- and Time-Dependent In Vitro Effects of Divalent and Trivalent Iron on the Activity of Bovine Spermatozoa.Evidence for a critical role of ceruloplasmin oxidase activity in iron metabolism of Wilson disease gene knockout mice.Effect of calcium-fortified milk-rich diets (either goat’s or cow’s milk) on copper bioavailability in iron-deficient anemia
P2860
Q26786098-7CA38B1A-5078-4A9D-AEA4-AC6AF4C22FE1Q26798153-A093DAF2-D5A5-49B9-A247-A6A2F5109A50Q26827257-8CAE3AEB-8792-4125-B898-B6067623AE56Q27329182-1AD09AFF-02C6-48A3-A488-989612E4CE53Q28582770-4A40C258-2EBA-45DB-96C2-4502556B1D7DQ33452102-70427686-60D5-4658-AC50-53A5674308E8Q33938412-14F65F19-D946-4B6F-9DC7-0BEEE444238AQ34651491-1ABF7F87-D274-42C8-849E-A685230BAA89Q34781079-8A3AAEDD-26D8-4C7A-8CCB-02C4C3E81496Q35042569-19B8F972-4ED4-4B74-BA61-6DE83E5789D3Q35184767-FFF94527-F837-476F-85DC-C778990BAFC1Q35585864-0D001852-F6DA-4365-B96F-0284AA3B8B7DQ36275015-0AAFFD6C-3A42-498E-838E-77D061EF9E92Q36823912-2D263DF4-8342-454F-A5DF-B0FC789B68FCQ37266409-0DD026F9-AAF2-420E-86F9-F31729E8AFA4Q38134421-B2025F1E-1B1A-485C-9C68-5CF129944FD3Q39334027-55A26182-EDB3-435F-A0D6-3A23327E6242Q39769287-161B4ED4-48B3-4A2A-96E4-2324D1450184Q40434390-7F1C53F3-547E-402F-906B-D06E06B69C72Q42471561-238E8B51-550F-49D2-AA03-520BE92742ABQ42720937-FA56FFC0-3428-4761-BF28-19079BFAD261Q43292191-FEE97F50-BB4B-4D65-A354-A15E6A413795Q43712169-D68DA72A-45F1-49E3-932E-36B1CB24D148Q46262207-A7FE00A5-AF95-47E7-A644-B09F56135F5CQ46906546-CAE4CC21-5012-4CE7-8743-4C00EF9BA192Q47603658-8A887948-C224-4220-97BB-88C04395AA9DQ48660250-6475B4DC-B078-4D3B-B242-D5BE34E50F1CQ51747844-D430EB82-AA39-4B1C-9325-B81F55F6C683Q53583037-590629C2-DFC0-4033-82B2-340C0CBB68C6Q54421775-1E65C6C9-951B-4C15-8F25-6C5574FE6F27Q57617276-C541CDF9-E665-451B-92D9-B2D6C01EB5E4
P2860
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
The molecular basis of copper and iron interactions.
@ast
The molecular basis of copper and iron interactions.
@en
type
label
The molecular basis of copper and iron interactions.
@ast
The molecular basis of copper and iron interactions.
@en
prefLabel
The molecular basis of copper and iron interactions.
@ast
The molecular basis of copper and iron interactions.
@en
P2860
P356
P1476
The molecular basis of copper and iron interactions.
@en
P2093
Paul Sharp
P2860
P304
P356
10.1079/PNS2004386
P577
2004-11-01T00:00:00Z