about
Iron storage within dopamine neurovesicles revealed by chemical nano-imagingMultimodal analysis of metals in copper-zinc superoxide dismutase isoforms separated on electrophoresis gels.Amyotrophic lateral sclerosis-like superoxide dismutase 1 proteinopathy is associated with neuronal loss in Parkinson's disease brain.Low-solubility particles and a Trojan-horse type mechanism of toxicity: the case of cobalt oxide on human lung cellsα-Synuclein Over-Expression Induces Increased Iron Accumulation and Redistribution in Iron-Exposed Neurons.Analysis of platinum and trace metals in treated glioma rat cells by X-ray fluorescence emission.Environmental manganese compounds accumulate as Mn(II) within the Golgi apparatus of dopamine cells: relationship between speciation, subcellular distribution, and cytotoxicity.Copper pathology in vulnerable brain regions in Parkinson's disease.Reduced net charge and heterogeneity of pI isoforms in familial amyotrophic lateral sclerosis mutants of copper/zinc superoxide dismutase.Zinc and Copper Effects on Stability of Tubulin and Actin Networks in Dendrites and Spines of Hippocampal Neurons.Combined use of hard X-ray phase contrast imaging and X-ray fluorescence microscopy for sub-cellular metal quantification.Heterogeneous intratumoral distribution of gadolinium nanoparticles within U87 human glioblastoma xenografts unveiled by micro-PIXE imaging.Accelerator-based research activities at “Centro Nacional de Aceleradores”, Seville (Spain)Subcellular speciation analysis of trace element oxidation states using synchrotron radiation micro-X-ray absorption near-edge structureCoupling of native IEF and extended X-ray absorption fine structure to characterize zinc-binding sites from pI isoforms of SOD1 and A4V pathogenic mutantUranium exposure of human dopaminergic cells results in low cytotoxicity, accumulation within sub-cytoplasmic regions, and down regulation of MAO-BEmerging chemical tools and techniques for tracking biological manganese
P50
Q28469303-64008887-22F9-40D9-B14E-854FF4C019D3Q33470837-DA206E6F-2A2B-4D20-90EA-E446B9BEB13AQ38773599-52CF1014-F283-42A1-98FF-3C59DD35239DQ38869103-ED1DC011-B549-47DD-9561-5E9BE9B932B4Q38892026-26717798-F6D0-4406-9D97-46B205C63DECQ38957045-17E2490C-B5A2-4ADD-BC33-A47086A06478Q39022912-1C3B1D22-A32A-46B3-978B-C7C47AE03451Q44278519-8CD337D4-3453-4047-8BE5-A4D9DB9F53CEQ46713654-16E350BE-36A3-4876-A4DA-3585AFBAD486Q48098019-FF251B0C-D5F8-4968-884E-A496B781A17AQ51468806-DA386C08-9C5D-4A50-BF02-1B0D0C53386EQ52903483-F9061CDC-E1F0-4353-8944-65E3CA4E58DFQ57660975-202E8B1D-8E8C-4F79-84EA-A22029E670E7Q81150802-AF2649B7-2507-46D1-9706-342B58FDD048Q84141069-43617FC2-C0A1-406C-915A-72FCF949DE76Q90751065-4F4D2E5B-C0FD-4134-A3CD-A4E5834E0ED4Q92780932-01C6E12F-60AF-4D87-A942-09798E3E7633
P50
description
Frans onderzoeker
@nl
forsker
@nb
researcher ORCID ID = 0000-0002-9253-4581
@en
name
A. Carmona
@ast
A. Carmona
@nl
A. Carmona
@sl
Asuncion Carmona
@en
Asuncion Carmona
@es
Asuncion Carmona
@nb
type
label
A. Carmona
@ast
A. Carmona
@nl
A. Carmona
@sl
Asuncion Carmona
@en
Asuncion Carmona
@es
Asuncion Carmona
@nb
altLabel
A. Carmona
@en
prefLabel
A. Carmona
@ast
A. Carmona
@nl
A. Carmona
@sl
Asuncion Carmona
@en
Asuncion Carmona
@es
Asuncion Carmona
@nb
P106
P1153
22933835800
P27
P31
P496
0000-0002-9253-4581