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Energy metabolism, proteotoxic stress and age-related dysfunction: protection by carnosine
Alan R. Hipkiss
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Corresponding author for this work
Aston Research Centre for Health in Ageing
Research output
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peer-review
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Dive into the research topics of 'Energy metabolism, proteotoxic stress and age-related dysfunction: protection by carnosine'. Together they form a unique fingerprint.
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Keyphrases
Age-related
100%
Stress-related
100%
Energy Metabolism
100%
L-carnitine
100%
Proteotoxic Stress
100%
Mitochondrial Function
66%
Methylglyoxal
66%
Proteotoxicity
66%
Low Molecular Weight
33%
Possible Mechanisms
33%
Aerobic
33%
Aldehydes
33%
Dipeptide
33%
Glycolysis
33%
Rapamycin
33%
Carbonyl Compounds
33%
Age-related Pathology
33%
Cellular Dysfunction
33%
Protein S Deficiency
33%
Cellular Pathology
33%
Scavenging Activity
33%
Biochemistry, Genetics and Molecular Biology
Energy Metabolism
100%
Carnosine
100%
Methylglyoxal
66%
Proteotoxicity
66%
Metabolite
33%
Molecular Weight
33%
Protein Metabolism
33%
Dipeptide
33%
Neuroscience
Carnosine
100%
Energy Metabolism
100%
Dipeptide
33%
Sirolimus
33%