about
The role of iron in neurodegenerative disorders: insights and opportunities with synchrotron light.Spherulites of amyloid-beta42 in vitro and in Alzheimer's diseaseGene co-expression networks shed light into diseases of brain iron accumulation.High-resolution analytical imaging and electron holography of magnetite particles in amyloid cores of Alzheimer's disease.High field magnetic resonance microscopy of the human hippocampus in Alzheimer's disease: quantitative imaging and correlation with iron.Pathological relationships involving iron and myelin may constitute a shared mechanism linking various rare and common brain diseases.Brain iron accumulation affects myelin-related molecular systems implicated in a rare neurogenetic disease family with neuropsychiatric features.Evidence of redox-active iron formation following aggregation of ferrihydrite and the Alzheimer's disease peptide β-amyloid.Aluminium, iron, zinc and copper influence the in vitro formation of amyloid fibrils of Abeta42 in a manner which may have consequences for metal chelation therapy in Alzheimer's disease.Individual dopaminergic neurons show raised iron levels in Parkinson disease.In situ characterization and mapping of iron compounds in Alzheimer's disease tissue.Iron deficiency in parkinsonism: region-specific iron dysregulation in Parkinson's disease and multiple system atrophy.Looking for biogenic magnetite in brain ferritin using NMR relaxometry.Nanoscale synchrotron X-ray speciation of iron and calcium compounds in amyloid plaque cores from Alzheimer's disease subjects.The potential of zwitterionic nanoliposomes against neurotoxic alpha-synuclein aggregates in Parkinson's DiseaseConcentration of various trace elements in the rat retina and their distribution in different structuresMetallic iron in cornflakesEmerging Approaches to Investigate the Influence of Transition Metals in the ProteinopathiesMetal Ion Binding to the Amyloid β Monomer Studied by Native Top-Down FTICR Mass SpectrometrySynchrotron XRF imaging of Alzheimer's disease basal ganglia reveals linear dependence of high-field magnetic resonance microscopy on tissue iron concentrationImpact of Autophagy and Aging on Iron Load and Ferritin in Drosophila Brain
P50
Q30847715-4D784FAC-6EBC-4163-BA65-B733907FC946Q33562702-0B677E26-45AB-4BB5-8E7A-824C237E21EFQ34506653-14952B57-2654-4C6D-9A1F-34860475EC62Q36845628-14D7A8E0-7ECF-471A-988C-1879975E9B7BQ36948901-CA41B291-AE95-4CEE-8BB4-56FDBF656F25Q37127064-B0588F1D-79B5-4FCE-8CC6-155FA3C8B24EQ37364099-4166C65B-0AA4-4A56-8530-209402082BCDQ39246791-08BCB6AD-6F3B-4B23-91FD-C08E8E95C19AQ44939863-D6277ECF-55E6-4BFF-8D2D-CD43B54DDC1FQ45305197-289C217E-B818-479A-B091-7F3EE7E8E119Q48796952-D4C00F9E-6784-4A8D-85E0-99F8BA0F0AF4Q48942905-C04BD77F-98DC-477E-8711-7E38DD808619Q52566322-1C8685C4-3DB7-4811-800F-CB46F7B4946BQ52567369-D5539CDC-76FA-4799-8E66-2133CCF4F701Q57954945-7C76284D-EB46-4087-9055-788B021B3997Q57954953-53E46830-5C25-4141-A7B0-CEE0F8F3097BQ90645055-E0B4CB3B-BAFE-4D18-BDD5-553354F7F0B0Q90973041-63D86C5D-9134-47C2-80AC-C8AEBB37CF97Q92216838-2EDEE634-BC56-4801-B007-B62851F551BCQ92240703-D949FBF7-847E-4023-9C65-CE05EF4CB4F6Q92565205-81007E15-8F9D-4668-B81C-43676E4B4705
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Joanna Collingwood
@ast
Joanna Collingwood
@en
Joanna Collingwood
@es
Joanna Collingwood
@nl
Joanna Collingwood
@sl
type
label
Joanna Collingwood
@ast
Joanna Collingwood
@en
Joanna Collingwood
@es
Joanna Collingwood
@nl
Joanna Collingwood
@sl
prefLabel
Joanna Collingwood
@ast
Joanna Collingwood
@en
Joanna Collingwood
@es
Joanna Collingwood
@nl
Joanna Collingwood
@sl
P1053
O-5503-2017
P106
P1153
8719705000
P2798
P31
P3829
P496
0000-0002-8423-4183