Deletion of hepatic Ctr1 reveals its function in copper acquisition and compensatory mechanisms for copper homeostasis.
about
Urinary copper elevation in a mouse model of Wilson's disease is a regulated process to specifically decrease the hepatic copper loadRole of copper transporters in platinum resistanceCharting the travels of copper in eukaryotes from yeast to mammalsMolecular mediators governing iron-copper interactionsSLC31 (CTR) family of copper transporters in health and diseaseRole of solute carriers in response to anticancer drugsIron insufficiency compromises motor neurons and their mitochondrial function in Irp2-null miceDifferential expression of ATP7A, ATP7B and CTR1 in adult rat dorsal root ganglion tissueTranscriptional regulation of copper metabolism genes in the liver of fetal and neonatal control and iron-deficient ratsCtr2 regulates biogenesis of a cleaved form of mammalian Ctr1 metal transporter lacking the copper- and cisplatin-binding ecto-domainATP7B detoxifies silver in ciliated airway epithelial cells.How copper traverses cellular membranes through the mammalian copper transporter 1, Ctr1.Impact of copper limitation on expression and function of multicopper oxidases (ferroxidases)Canine models of copper toxicosis for understanding mammalian copper metabolism.The Features of Copper Metabolism in the Rat Liver during DevelopmentGene expression patterns in the progression of canine copper-associated chronic hepatitis.Deletion of iron regulatory protein 1 causes polycythemia and pulmonary hypertension in mice through translational derepression of HIF2α.Metabolic crossroads of iron and copper.Copper transport in mammalian cells: special care for a metal with special needs.Human copper transporters: mechanism, role in human diseases and therapeutic potential.Anticancer activity of metal complexes: involvement of redox processes.Advances in the understanding of mammalian copper transporters.Radiocopper for the imaging of copper metabolism.Copper trafficking to the secretory pathway.The role of insufficient copper in lipid synthesis and fatty-liver disease.Estimating mineral requirements of Nellore beef bulls fed with or without inorganic mineral supplementation and the influence on mineral balance.Amount and source of dietary copper affects small intestine morphology, duodenal lipid peroxidation, hepatic oxidative stress,and mRNA expression of hepatic copper regulatory proteins in weanling pigs.Manganese-induced effects on testicular trace element levels and crucial hormonal parameters of Hyline cocks.Effect of dietary copper and breed on gene products involved in copper acquisition, distribution, and use in Angus and Simmental cows and fetuses.The mitochondrial metallochaperone SCO1 maintains CTR1 at the plasma membrane to preserve copper homeostasis in the murine heart.Neurotoxicity of Copper.Organic cation transporter 3 mediates cisplatin and copper cross-resistance in hepatoma cells.Manganese-induced effects on cerebral trace element and nitric oxide of Hyline cocks.Serum copper as a novel biomarker for resistance to thyroid hormoneEffect of dietary copper amount and source on copper metabolism and oxidative stress of weanling pigs in short-term feeding1
P2860
Q21134543-490F4EF9-6A06-41F7-A81A-7A8D793D9A8BQ26767028-A7A0E573-142E-45CF-8B66-ACBA11DD3208Q26863502-1BE52F0F-8617-4ADE-8665-7A4BB8EBED5CQ27003297-521BB28D-FA8B-4648-8BA9-FCE2C1D885EFQ27021763-092EEC45-2E35-438C-B308-B9DBC6BD1F5FQ27027625-9E74F838-C89E-49BF-AF70-FAB77D704173Q27318323-9088F27A-8D9C-48ED-96B2-674AE858B827Q28564651-E1F2A9E8-7826-4DF7-8BF1-4A1FC879CD11Q28567550-58261C10-D757-49FF-ACD5-40A902A26409Q28589065-6BF1CF40-FB1D-4E0A-89FE-11FF0DE37BE2Q33695461-CE19591C-458D-466A-A9DF-C2AB8C81F986Q34151980-BC903188-F39D-440A-9E0E-1FF0A3E6B0A2Q34729814-653D4CBF-97FE-4D72-AE92-34983303A095Q35745611-0832120A-B1B5-4828-8E11-95EC284CA4FAQ36170780-56294757-FCFB-497C-A0F4-E241999DF28EQ36359677-8A754C48-B31A-4C2C-908C-91F2BAF78D08Q36602744-41090A5D-57B3-4723-8BB1-8E0AFD93395DQ36948822-E9E709F6-D0D1-43FA-8C82-EF7D58CD4C43Q37377581-5A908C75-E9B5-4541-A91B-6B431E17546BQ37747071-E0454174-6E37-4E5C-954E-E402D6DF43EAQ37833099-35753E79-7C5D-4F59-BD1B-FD186ABE08E2Q37983830-CC81365A-9594-4AB1-8009-F4829347B256Q38196380-7DD80774-E86D-4EB1-85CC-EB2D498C6FA2Q38559272-3C35EE6A-4A12-43E9-B244-CA81AFD9E14FQ38921695-AF79C9FE-5046-4FF2-B734-591B3EFAC832Q39622617-B038F877-883B-42E1-BC5E-BC1671BCBB7CQ42718090-34760AF0-4939-4172-B5E3-E784CB64AE0FQ43483275-DCF32C1E-0194-4A2B-8744-B170C1DA9D30Q44321139-AA4CAD7B-A104-463F-A9A7-5D575418BC46Q47706161-EB33D5DC-47BB-44A7-AED1-C1B25CDD8A41Q48120135-98EA6729-F0BC-45A2-97E1-C7652D26CFE2Q49309271-7B28B0E8-3EA5-49F9-9915-6D02803D3CB0Q50867820-C0BE3A79-E28C-41AF-B574-066A5BA101AEQ56984636-B0BC6092-DEA1-4F76-8E60-5E8DB273CC11Q57437295-0E2DA589-D3BA-4E7C-A70A-72837C29BCDA
P2860
Deletion of hepatic Ctr1 reveals its function in copper acquisition and compensatory mechanisms for copper homeostasis.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 18 December 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Deletion of hepatic Ctr1 revea ...... anisms for copper homeostasis.
@en
Deletion of hepatic Ctr1 revea ...... anisms for copper homeostasis.
@nl
type
label
Deletion of hepatic Ctr1 revea ...... anisms for copper homeostasis.
@en
Deletion of hepatic Ctr1 revea ...... anisms for copper homeostasis.
@nl
prefLabel
Deletion of hepatic Ctr1 revea ...... anisms for copper homeostasis.
@en
Deletion of hepatic Ctr1 revea ...... anisms for copper homeostasis.
@nl
P2093
P2860
P356
P1476
Deletion of hepatic Ctr1 revea ...... anisms for copper homeostasis.
@en
P2093
Heejeong Kim
Hwa-Young Son
Jaekwon Lee
Sarah M Bailey
P2860
P304
P356
10.1152/AJPGI.90632.2008
P577
2008-12-18T00:00:00Z