Keyphrases
Retinal pigment Epithelium
100%
Lysosomal Activity
100%
Retinal pigments
100%
Phagocytosis Activity
100%
Iron Homeostasis
33%
Iron Accumulation
33%
Iron Levels
22%
Cathepsin D
22%
Age-related Macular Degeneration
22%
Protein Level
22%
Ferritin
22%
Transferrin
22%
Transferrin Receptor 1 (TfR1)
22%
Ceruloplasmin
22%
ARPE-19 Cells
22%
Ferroportin
22%
Rodents
11%
Genetic mutation
11%
Phagocytosis
11%
Oxidative Stress
11%
Lysosomal Function
11%
Age-related Changes
11%
Young Animals
11%
Old Animals
11%
Aged Animals
11%
MRNA Level
11%
Regulatory Molecules
11%
Normal Aging
11%
Changes with Age
11%
Intracellular Iron
11%
Neuroscience
Visual Pigment
100%
Retinal Pigment Epithelium
100%
Phagocytosis
100%
Choroid
53%
Epithelial Cells
30%
Age-Related Macular Degeneration
15%
Transferrin Receptor
15%
Ferroxidase
15%
Ferritin
15%
Cathepsin D
15%
Transferrin
15%
Ferroportin
15%
In Vitro
7%
Gene Mutation
7%
Oxidative Stress
7%
Messenger RNA
7%
Biochemistry, Genetics and Molecular Biology
Phagocytosis
100%
Photosynthetic Pigment
100%
Iron Homeostasis
21%
Transferrin
14%
Cathepsin D
14%
Transferrin Receptor
14%
Ceruloplasmin
14%
Ferroxidase
14%
Ferroportin
14%
Ferritin
14%
Gene Mutation
7%
Oxidative Stress
7%
mRNA Expression Level
7%
Pharmacology, Toxicology and Pharmaceutical Science
Iron
100%
Visual Pigment
100%
Cathepsin D
14%
Age Related Macular Degeneration
14%
Ferritin
14%
Ceruloplasmin
14%
Transferrin
14%
Transferrin Receptor
14%
Ferroportin
14%
Messenger RNA
7%