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Is glutathione an important neuroprotective effector molecule against amyloid beta toxicity?
Vicki S. Barber, Helen R. Griffiths
College of Health and Life Sciences
Aston Research Centre for Health in Ageing
Research output
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Contribution to journal
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Article
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peer-review
Overview
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Chemistry
Antioxidant Agent
14%
Beta-Amyloid
88%
Cell Death
6%
Dioxygen
3%
Disulfide
5%
Dose
5%
Effector
85%
Enzyme Activity
5%
Fluorescence
7%
Glutathione
70%
Metabolic
5%
Molecule
27%
Neuroprotective
100%
Neurotoxicity
8%
Neurotrophic Factor
11%
Oxidative Stress
25%
Polyunsaturated Fatty Acid
7%
Protein
8%
Reactive Oxygen Metabolite
6%
Redox Potential
6%
Signal Transduction
7%
Thiol
22%
Weight
6%
Medicine & Life Sciences
Amyloid
74%
amyloid beta-protein (25-35)
10%
Antioxidants
14%
Brain
3%
Cell Death
4%
Cytoprotection
15%
Enzymes
7%
Fluorescence
10%
Gene Expression Regulation
7%
Genes
2%
Glutathione
70%
In Vitro Techniques
2%
Iron
5%
Molecular Weight
10%
Nerve Growth Factor
28%
Nerve Growth Factors
7%
Neurodegenerative Diseases
5%
Oxidants
13%
Oxidation-Reduction
12%
Oxidative Stress
19%
Oxygen
4%
PC12 Cells
14%
Proteins
7%
Reactive Oxygen Species
5%
Regeneration
5%
Signal Transduction
5%
Sulfhydryl Compounds
28%
Unsaturated Fatty Acids
7%
Up-Regulation
9%