Energy and Charge Localization in Irradiated DNA

Energy and Charge Localization in Irradiated DNA

The relation between the site of energy deposition and the site of its biological action is an important question in radiobiology. Even at 77 degrees K, evidence is clear that these two sites must be separated since energy deposition is random but specific products are formed. Several processes that...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: Swenberg, C E, Myers, Jr , L S, Miller, J H
Format: Report
Sprache:eng
Schlagworte:
Biochemistry
CYTOSINE
DEOXYRIBONUCLEIC ACIDS
ELECTRON PARAMAGNETIC RESONANCE
ENERGY TRANSFER
GAMMA RAYS
HYDRATION
IONIZING RADIATION
RADIATION DAMAGE
Radiobiology
RECOMBINATION REACTIONS
REPRINTS
RESONANCE
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Beschreibung
Zusammenfassung:The relation between the site of energy deposition and the site of its biological action is an important question in radiobiology. Even at 77 degrees K, evidence is clear that these two sites must be separated since energy deposition is random but specific products are formed. Several processes that may contribute to this separation are: hole migration and stabilization through deprotonation to give neutral oxidation product radicals; electron trapping and transfer to form specific radical anions, possibly followed by protonation to give neutral reduction product radicals; and recombination of spatially separated charges or radicals. These microscopic processes will be reviewed critically in analysis using electron paramagnetic resonance spectroscopy (EPR) evidence for an against long-range transfer of energy and/or charge in frozen, hydrated DNA. Pub. in Advanced Space Research, v14 n10, p181-201, 1994