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Oxidative DNA damage following photoexcitation of daunomycin: Direct role of oxygen
Radhika Kainthla
, Maha Zewail-Foote
Research output
:
Contribution to journal
›
Article
›
peer-review
8
Scopus citations
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Physics & Astronomy
photoexcitation
59%
deoxyribonucleic acid
49%
damage
38%
oxygen
32%
guanines
25%
purines
13%
inorganic peroxides
12%
plasmids
12%
degassing
11%
strands
9%
anions
8%
charge transfer
7%
chemistry
7%
argon
7%
dosage
5%
irradiation
5%
products
5%
Engineering & Materials Science
Photoexcitation
100%
DNA
56%
Oxygen
43%
Endonucleases
16%
Negative ions
12%
Degassing
11%
Charge transfer
11%
Assays
10%
Argon
10%
Irradiation
9%
Relaxation
8%
Repair
7%
Chemical Compounds
Photoexcitation
59%
Degasification
34%
Purine
27%
Radical Anion
26%
Dioxygen
26%
Charge Transfer
18%
Force
18%
Chemistry
15%