ZIP8 is an iron and zinc transporter whose cell-surface expression is up-regulated by cellular iron loading
about
Cellular localization and developmental changes of Zip8, Zip14 and transferrin receptor 1 in the inner ear of ratsCobalt-induced ototoxicity in rat postnatal cochlear organotypic culturesThe Crystal Structure of Six-transmembrane Epithelial Antigen of the Prostate 4 (Steap4), a Ferri/Cuprireductase, Suggests a Novel Interdomain Flavin-binding SiteManganese-induced oxidative DNA damage in neuronal SH-SY5Y cells: attenuation of thymine base lesions by glutathione and N-acetylcysteineDeregulation of subcellular biometal homeostasis through loss of the metal transporter, Zip7, in a childhood neurodegenerative disorderProtective effect of low dose intra-articular cadmium on inflammation and joint destruction in arthritisTargeting iron metabolism in drug discovery and deliveryIron homeostasis in peripheral nervous system, still a black box?The metal transporter ZIP13 supplies iron into the secretory pathway in Drosophila melanogasterTissue-Specific Induction of Mouse ZIP8 and ZIP14 Divalent Cation/Bicarbonate Symporters by, and Cytokine Response to, Inflammatory Signals.Fibroblasts from long-lived rodent species exclude cadmium.Iron transport across the blood-brain barrier: development, neurovascular regulation and cerebral amyloid angiopathy.Insulin production hampered by intermittent hypoxia via impaired zinc homeostasis.Copper binding affinity of the C2B domain of synaptotagmin-1 and its potential role in the nonclassical secretion of acidic fibroblast growth factor.Molecular mechanisms of non-transferrin-bound and transferring-bound iron uptake in primary hippocampal neurons.Zinc Supplementation in a Randomized Controlled Trial Decreased ZIP4 and ZIP8 mRNA Abundance in Peripheral Blood Mononuclear Cells of Adult Women.SLC39A14 Is Required for the Development of Hepatocellular Iron Overload in Murine Models of Hereditary HemochromatosisHepatocyte divalent metal-ion transporter-1 is dispensable for hepatic iron accumulation and non-transferrin-bound iron uptake in miceMetal Homeostasis Regulators Suppress FRDA Phenotypes in a Drosophila Model of the DiseaseA Pleiotropic Missense Variant in SLC39A8 Is Associated With Crohn's Disease and Human Gut Microbiome Composition.Intestinal DMT1 is critical for iron absorption in the mouse but is not required for the absorption of copper or manganeseZinc Modulates Endotoxin-Induced Human Macrophage Inflammation through ZIP8 Induction and C/EBPβ InhibitionSLC39A8 Deficiency: A Disorder of Manganese Transport and Glycosylation.Autosomal-Recessive Intellectual Disability with Cerebellar Atrophy Syndrome Caused by Mutation of the Manganese and Zinc Transporter Gene SLC39A8.Zinc transporters, mechanisms of action and therapeutic utility: implications for type 2 diabetes mellitus.Regulators of Iron Homeostasis: New Players in Metabolism, Cell Death, and Disease.Altered biometal homeostasis is associated with CLN6 mRNA loss in mouse neuronal ceroid lipofuscinosisZIP14 and DMT1 in the liver, pancreas, and heart are differentially regulated by iron deficiency and overload: implications for tissue iron uptake in iron-related disorders.LiZIP3 is a cellular zinc transporter that mediates the tightly regulated import of zinc in Leishmania infantum parasitesIron uptake and transport across physiological barriers.Mobilization of stored iron in mammals: a review.The placenta: the forgotten essential organ of iron transportZinc- and bicarbonate-dependent ZIP8 transporter mediates selenite uptake.A blood pressure-associated variant of the SLC39A8 gene influences cellular cadmium accumulation and toxicity.Lysosomal metal, redox and proton cycles influencing the CysHis cathepsin reaction.MRI biomarkers for evaluation of treatment efficacy in preclinical diabetic retinopathy.Iron deficiency during pregnancy: the consequences for placental function and fetal outcome.New perspectives on the regulation of iron absorption via cellular zinc concentrations in humans.Iron transport in the kidney: implications for physiology and cadmium nephrotoxicity.Alterations of zinc homeostasis in response to Cryptococcus neoformans in a murine macrophage cell line.
P2860
Q23911533-3426A035-E360-430D-8D00-B1B6F13604AEQ23919397-5224D188-4321-4816-90E1-3BA34438B53EQ27678472-CDEC2C3F-40B3-494C-B2D5-F0842F478AAEQ28396499-E3184D88-0721-4BCD-B910-D1C3008C305BQ33642938-86742EFB-E208-4384-BF6A-879D71EE0F98Q33729159-CE8F1BA0-C073-4350-A7EC-5201D4BF1B18Q33757232-403F54A8-AB70-4BC9-AE04-FF18ADB721FAQ33860305-E8B9F1CF-F749-4943-B100-910589469BDCQ34033332-6F9EA718-2D2E-4EB3-9A2B-3874377AAF05Q34323944-3670D105-2C1B-410B-B8C9-E987611F42A5Q34974724-05E64B4A-0A1F-49AB-926A-2CEF9E579446Q35032747-42C2922C-5BA7-4B24-841C-58F683E8B74AQ35108815-F900B21F-C4E8-4C5E-908B-3EA394C69DF2Q35185846-CD3019F0-0641-4763-AFD5-35C1CAEC9E49Q35528429-1A492582-B12F-45BA-993F-3B48163C132AQ35605842-694F473E-D040-4B3C-8048-61F2D294FFCDQ35836771-2A235A6D-6F55-4538-BAEC-9E6EE92B1A76Q36067702-E5CA615B-DE4D-4DFF-8684-91C351252E61Q36081561-BDEC0E87-6F15-4643-9819-22833DC53D83Q36095561-0ADC6B09-669E-4D66-9C3D-1D72CA4FD14CQ36174536-DA8DDA43-9775-447A-B409-046B8B95C0AFQ36240446-B49A16B1-D57B-4471-AB82-40B21C808B9DQ36369946-DBECD9AF-BD8E-4C2D-B656-A6D6CA0C628BQ36369976-858AF417-2308-42BA-B53E-8B73BB7B7FBAQ36490385-F9DA2BD0-D6DC-4A55-8F85-254553A5D95CQ36665139-5BDEB1DE-5F39-45B9-98FE-88FFD9CD26A6Q36930615-E16F2DDD-5F15-4DF9-A359-813516EC7CB5Q36967117-BE25A2D4-0907-4A3E-A229-89C9A9A2B8DBQ37134032-0A0D7EAE-31BB-4230-9ED1-CA59759C76F7Q37150438-BABD891B-BFF4-42DC-8550-222BF741B739Q37286736-B4EA4323-6F2C-4AC3-9DE9-FA00B2B60856Q37330726-47648F24-B0D9-48F9-8554-D5784C4A962BQ37376547-887AB12E-806F-4F30-B9CC-115CD68B4D7AQ37623717-ECDFD6C9-75A8-4104-A56F-31FC17F833FEQ38072811-3ACBD041-9976-4643-B43D-327399674A79Q38115815-4213110D-C8FB-40F9-9CA7-60DED1B4DDBDQ38157134-80197659-9EF1-49C6-9D3C-4EB2EF1986BDQ38547572-26F085DB-FC22-4CF9-B901-65F92302DCF8Q38612279-26AA3730-3BA4-4041-8540-4506B4049FFAQ38685355-8FAA741F-F9DF-4DEB-97EF-EC0EB1123947
P2860
ZIP8 is an iron and zinc transporter whose cell-surface expression is up-regulated by cellular iron loading
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh
2012年學術文章
@zh-hant
name
ZIP8 is an iron and zinc trans ...... lated by cellular iron loading
@ast
ZIP8 is an iron and zinc trans ...... lated by cellular iron loading
@en
type
label
ZIP8 is an iron and zinc trans ...... lated by cellular iron loading
@ast
ZIP8 is an iron and zinc trans ...... lated by cellular iron loading
@en
prefLabel
ZIP8 is an iron and zinc trans ...... lated by cellular iron loading
@ast
ZIP8 is an iron and zinc trans ...... lated by cellular iron loading
@en
P2093
P2860
P356
P1476
ZIP8 is an iron and zinc trans ...... lated by cellular iron loading
@en
P2093
Brian K Sparkman
Chia-Yu Wang
Mitchell D Knutson
Stephanie Duarte
Supak Jenkitkasemwong
P2860
P304
34032-34043
P356
10.1074/JBC.M112.367284
P407
P577
2012-08-16T00:00:00Z