Transferrin receptors in rat brain: neuropeptide-like pattern and relationship to iron distribution.
about
Octapeptides deduced from the neuropeptide receptor-like pattern of antigen T4 in brain potently inhibit human immunodeficiency virus receptor binding and T-cell infectivityMethods to identify and characterize developmental neurotoxicity for human health risk assessment. III: pharmacokinetic and pharmacodynamic considerations.Magnetic resonance imaging (MRI) to study striatal iron accumulation in a rat model of Parkinson's diseaseBarrier mechanisms in the brain, I. Adult brain.MRI T2 Hypointensities in basal ganglia of premanifest Huntington's diseaseInfluenza viruses induce autoantibodies to a brain-specific 37-kDa protein in rabbit.Involvement of Fc receptors in disorders of the central nervous system.Aluminum access to the brain: a role for transferrin and its receptor.Manganese: brain transport and emerging research needs.Pathogenic implications of iron accumulation in multiple sclerosis.1B/(-)IRE DMT1 expression during brain ischemia contributes to cell death mediated by NF-κB/RelA acetylation at Lys310Local treatment of brain tumors with targeted chimera cytotoxic proteins.Convection-enhanced delivery of macromolecules in the brain.Manganese cell labeling of murine hepatocytes using manganese(III)-transferrinManganese neurotoxicity: a focus on the neonateManganese: recent advances in understanding its transport and neurotoxicityTargeted toxins for glioblastoma multiforme: pre-clinical studies and clinical implementation.The habenula and iron metabolism in cerebral mouse models of multiple sclerosisDisrupted iron homeostasis causes dopaminergic neurodegeneration in mice.Signal intensity on MRI of basal ganglia in multiple sclerosis.Divalent metal transporter 1 (DMT1) contributes to neurodegeneration in animal models of Parkinson's disease.Serial susceptibility weighted MRI measures brain iron and microbleeds in dementia.Role of manganese in neurodegenerative diseases.Iron neurochemistry in Alzheimer's disease and Parkinson's disease: targets for therapeutics.Oligodendrocytes: Functioning in a Delicate Balance Between High Metabolic Requirements and Oxidative Damage.The neuropeptide network.The development of the human blood-brain and blood-CSF barriers.Relationship of iron to oligodendrocytes and myelination.Effect of aluminium on iron uptake and transferrin-receptor expression by human erythroleukaemia K562 cells.Modulating motility of intracellular vesicles in cortical neurons with nanomagnetic forces on-chip.Distribution of 125I-ferrotransferrin binding sites in the mesencephalon of control subjects and patients with Parkinson's disease.Uptake and distribution of iron and transferrin in the adult rat brain.Gallium-67 as a potential marker for aluminium transport in rat brain: implications for Alzheimer's disease.Transferrin receptors in the normal human hippocampus and in Alzheimer's disease.
P2860
Q24628269-CB0BE7E7-AEC7-4944-B1B3-12993EE98866Q24814147-A917DE41-6175-4403-BDD8-51E2CC76E5EDQ27325407-C0F815D9-A982-452E-986B-B053C78D9A2DQ33535015-764A89E1-63D3-40D9-8749-5D1FAD4E9E76Q33704987-A0D8DABB-FD03-42D0-9295-8C923AED34A4Q33844647-10173F67-C66A-4C0D-8728-B0093C61F2D6Q33886574-DB248777-0F0B-48CA-BFB7-097CA4F45A38Q33902338-B2B93004-2826-46BD-9DD4-F82130FCFC8AQ33942458-1FF279CE-CF7D-4E48-90AF-93D54B2C7CC5Q34049616-C7FA7407-238A-403D-A466-B9EC7FE686B1Q34292783-74BA6BDE-4FC4-47E6-9FDD-E101BB927918Q34798727-55202EE4-E8BC-42E3-8514-BD6EBA1F3101Q35091232-C56A3365-5026-477E-A121-167D6B08BF9FQ35400288-A78B0FF7-56EB-4ACF-8E8F-DD5AC3DAC7A6Q35751741-979666D2-27F1-43D5-AB21-97A0FA6E5559Q35946187-70BF68BC-766F-44FB-AAF2-2192F569EB8BQ35999648-EDA2371B-7AEF-4E8B-8190-34FB7F7E6138Q36141102-3F0C4914-E92A-4BD9-8B3F-6EB01E84BA27Q36770487-88960F83-1D87-4110-BAF0-BFD91B9B9774Q36881174-75390058-32C0-481B-BD40-10661C66B18FQ36985218-D07919FD-01EF-4A82-A2CB-D550BB1D0D69Q37457153-F145CCD3-6DA3-4331-A9E5-8C816B4850FAQ37941268-D6C0F2C0-7097-4C35-B1C5-C5C618CBB311Q38627193-CFDD0C45-CB30-4132-9B60-9D02FB5EED18Q38974735-585B64BD-1B56-43FA-ACED-FE0331330273Q39216449-25DB326E-7EE6-4F8D-8F19-9319DD5B8F48Q39746567-66BDFEBD-338C-4280-83C3-BE5D1254EA3AQ41087116-307EAC7A-336C-4234-B1D2-A9922BDE5FAAQ41711491-E97D3B0B-B74A-4AB5-B54A-CB50A53DB65BQ46036517-907E5BCA-717A-4CD1-B5C4-B18D7150E040Q48271118-D3C58221-98E3-4D5D-B59C-2B4ACC403F0FQ48459489-223CE98E-D95A-486A-80E9-0371148BB56DQ48940272-71B65120-8B27-4FAE-8CC7-EA6BCD2811B4Q53203529-BCE6DBC2-6F12-4CD0-8BD8-C68668812D6D
P2860
Transferrin receptors in rat brain: neuropeptide-like pattern and relationship to iron distribution.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on July 1985
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Transferrin receptors in rat b ...... tionship to iron distribution.
@en
Transferrin receptors in rat b ...... tionship to iron distribution.
@nl
type
label
Transferrin receptors in rat b ...... tionship to iron distribution.
@en
Transferrin receptors in rat b ...... tionship to iron distribution.
@nl
prefLabel
Transferrin receptors in rat b ...... tionship to iron distribution.
@en
Transferrin receptors in rat b ...... tionship to iron distribution.
@nl
P2093
P2860
P356
P1476
Transferrin receptors in rat b ...... tionship to iron distribution.
@en
P2093
P2860
P304
P356
10.1073/PNAS.82.13.4553
P407
P577
1985-07-01T00:00:00Z