Add to ORKGProtein lipoxidation was assessed in the parietal cortex (PC), frontal cortex (FC), and cingulate gyrus (CG) in middle-aged and old-aged individuals with no clinical manifestations of cognitive impairment, in order to increase understanding of regional brain vulnerability to oxidative damage during aging. Twenty-five lipoxidized proteins were identified in all the three regions although with regional specificities, by using redox proteomics to detect target proteins of neuroketals (NKT) adduction. The number of cases with NKT-adducted proteins was higher in old-aged individuals but most oxidized proteins were already present in middle-aged individuals. Differences in vulnerability to oxidation were dependent on the sub-cellular localization...
The human brain is a target of the aging process like other cell systems of the human body. Specific...
AbstractOxidative stress is thought to be one of the main mediators of neuronal damage in human neur...
This study is aimed at gaining insights into the brain site-specific proteomic senescence signature ...
Protein lipoxidation was assessed in the parietal cortex (PC), frontal cortex (FC), and cingulate gy...
Increasing evidence supports the notion that increased oxidative stress is a fundamental cause in th...
It is well established that the risk to develop neurodegenerative disorders increases with chronolog...
Diverse oxidative pathways, such as direct oxidation of amino acids, glycoxidation, and lipoxidation...
The studies presented in this work were completed with the goal ofgaining greater insight into the r...
Previous studies indicated increased levels of protein oxidation in brain from subjects with Alzheim...
The biological basis of brain aging and non-neurodegenerative cognitive decline is unknown and for a...
Human brain aging is the physiological process which underlies as cause of cognitive decline in the ...
Impaired function of the central nervous system (CNS) in aged animals is associated with increased s...
Numerous investigations point to the importance of oxidative imbalance in mediating AD pathogenesis....
Oxidative stress is thought to be one of the main mediators of neuronal damage in human neurodegener...
Oxidative stress plays a pivotal role in normal brain aging and various neurodegenerative diseases, ...
The human brain is a target of the aging process like other cell systems of the human body. Specific...
AbstractOxidative stress is thought to be one of the main mediators of neuronal damage in human neur...
This study is aimed at gaining insights into the brain site-specific proteomic senescence signature ...
Protein lipoxidation was assessed in the parietal cortex (PC), frontal cortex (FC), and cingulate gy...
Increasing evidence supports the notion that increased oxidative stress is a fundamental cause in th...
It is well established that the risk to develop neurodegenerative disorders increases with chronolog...
Diverse oxidative pathways, such as direct oxidation of amino acids, glycoxidation, and lipoxidation...
The studies presented in this work were completed with the goal ofgaining greater insight into the r...
Previous studies indicated increased levels of protein oxidation in brain from subjects with Alzheim...
The biological basis of brain aging and non-neurodegenerative cognitive decline is unknown and for a...
Human brain aging is the physiological process which underlies as cause of cognitive decline in the ...
Impaired function of the central nervous system (CNS) in aged animals is associated with increased s...
Numerous investigations point to the importance of oxidative imbalance in mediating AD pathogenesis....
Oxidative stress is thought to be one of the main mediators of neuronal damage in human neurodegener...
Oxidative stress plays a pivotal role in normal brain aging and various neurodegenerative diseases, ...
The human brain is a target of the aging process like other cell systems of the human body. Specific...
AbstractOxidative stress is thought to be one of the main mediators of neuronal damage in human neur...
This study is aimed at gaining insights into the brain site-specific proteomic senescence signature ...