Reactive oxygen radicals in signaling and damage in the ischemic brain
PH Chan - Journal of Cerebral Blood Flow & Metabolism, 2001 - journals.sagepub.com
PH Chan
Journal of Cerebral Blood Flow & Metabolism, 2001•journals.sagepub.comReactive oxygen species have been implicated in brain injury after ischemic stroke. These
oxidants can react and damage the cellular macromolecules by virtue of the reactivity that
leads to cell injury and necrosis. Oxidants are also mediators in signaling involving
mitochondria, DNA repair enzymes, and transcription factors that may lead to apoptosis after
cerebral ischemia. Transgenic or knockout mice with cell-or site-specific prooxidant and
antioxidant enzymes provide useful tools in dissecting the events involving oxidative stress …
oxidants can react and damage the cellular macromolecules by virtue of the reactivity that
leads to cell injury and necrosis. Oxidants are also mediators in signaling involving
mitochondria, DNA repair enzymes, and transcription factors that may lead to apoptosis after
cerebral ischemia. Transgenic or knockout mice with cell-or site-specific prooxidant and
antioxidant enzymes provide useful tools in dissecting the events involving oxidative stress …
Reactive oxygen species have been implicated in brain injury after ischemic stroke. These oxidants can react and damage the cellular macromolecules by virtue of the reactivity that leads to cell injury and necrosis. Oxidants are also mediators in signaling involving mitochondria, DNA repair enzymes, and transcription factors that may lead to apoptosis after cerebral ischemia. Transgenic or knockout mice with cell- or site-specific prooxidant and antioxidant enzymes provide useful tools in dissecting the events involving oxidative stress in signaling and damage in ischemic brain injury.
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