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Quinacrine attenuates increases in divalent metal transporter-1 and iron levels in the rat hippocampus, after kainate-induced neuronal injury
X. S. Wang, W. Y. Ong,
James Connor
Department of Neurosurgery
Department of Pediatrics
Penn State Cancer Institute
Cancer Institute, Next-Generation Therapies
Penn State Neuroscience Institute
Research output
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Contribution to journal
›
Article
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peer-review
14
Scopus citations
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Dive into the research topics of 'Quinacrine attenuates increases in divalent metal transporter-1 and iron levels in the rat hippocampus, after kainate-induced neuronal injury'. Together they form a unique fingerprint.
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Keyphrases
Iron Levels
100%
Divalent Metal Transporter 1 (DMT1)
100%
Neuronal Injury
100%
Rat Hippocampus
100%
Kainate
100%
Hippocampus
33%
Immunoreactivity
22%
Fe2+
22%
Fe3+
22%
Cornu Ammonis
22%
Iron Staining
22%
Non-heme Iron
11%
Iron Accumulation
11%
Expression Level
11%
Iron Transporter
11%
Astrocytes
11%
Antimalarial Drugs
11%
Histochemistry
11%
Turnbull's Blue
11%
Perl
11%
Neuroscience
Hippocampus
100%
Natural Resistance Associated Macrophage Protein 2
100%
Mepacrine
100%
Staining Technique
44%
Astrocyte
11%
Heme
11%
Histochemistry
11%
Antimalarial Agent
11%