Add to ORKGABSTRACT: Although DNA binding proteins shield the genetic material from diffusible reactive oxygen species by reacting with them, the resulting protein (peroxyl) radicals can oxidize the bound DNA. To explore this possible DNA damage by protein radicals, histone H4 proteins containing an azoalkane radical precursor at defined sites were prepared. Photolysis of a nucleosome core particle containing the modified protein produces DNA damage that is consistent with selective C4′-oxidation. The nucleotide(s) damaged is highly dependent on proximity to the protein radical. These experiments provide insight into the effects of oxidative stress on protein-bound DNA, revealing an additional layer of complexity concerning nucleic acid damage. γ-Radi...
AbstractEukaryotic DNA is packaged into nucleosomes, made up of 146 bp of DNA wrapped around a core ...
We developed a method to map oxidative-induced DNA damage at the nucleotide level using ligation-med...
DNA stores and passes the genetic information of almost all living organisms. Its molecular structur...
Although DNA binding proteins shield the genetic material from diffusible reactive oxygen species by...
AbstractPackaging DNA into nucleosome core particles generally offers protection from damage by mole...
This thesis investigates the effects of ionizing radiation on frozen aqueous solutions of DNA using ...
A key step in the regulation of gene expression, DNA structuring and DNA repair is the binding of so...
Exposure of individual histone proteins (H1, H2A, H2B, H3, or H4) and histone octamers (consisting o...
Nucleosomes and the secondary structure of DNA play an important role in many cellular processes tha...
AbstractWhen cells are exposed to oxidative stress, DNA damage frequently occurs. The molecular mech...
Ionizing radiation damages DNA indirectly via the formation of •OH, which reacts with DNA to form nu...
In this project we have proposed several mechanisms for radiation damage to DNA and its constituents...
Eukaryotic DNA is packaged into nucleosomes, made up of 146 bp of DNA wrapped around a core of histo...
Part I; DNA and Higher Order Cell Systems The effects of a range of nitroxides on the radiation dama...
The histone proteins in nucleosome core particles are known to catalyze DNA cleavage at abasic and o...
AbstractEukaryotic DNA is packaged into nucleosomes, made up of 146 bp of DNA wrapped around a core ...
We developed a method to map oxidative-induced DNA damage at the nucleotide level using ligation-med...
DNA stores and passes the genetic information of almost all living organisms. Its molecular structur...
Although DNA binding proteins shield the genetic material from diffusible reactive oxygen species by...
AbstractPackaging DNA into nucleosome core particles generally offers protection from damage by mole...
This thesis investigates the effects of ionizing radiation on frozen aqueous solutions of DNA using ...
A key step in the regulation of gene expression, DNA structuring and DNA repair is the binding of so...
Exposure of individual histone proteins (H1, H2A, H2B, H3, or H4) and histone octamers (consisting o...
Nucleosomes and the secondary structure of DNA play an important role in many cellular processes tha...
AbstractWhen cells are exposed to oxidative stress, DNA damage frequently occurs. The molecular mech...
Ionizing radiation damages DNA indirectly via the formation of •OH, which reacts with DNA to form nu...
In this project we have proposed several mechanisms for radiation damage to DNA and its constituents...
Eukaryotic DNA is packaged into nucleosomes, made up of 146 bp of DNA wrapped around a core of histo...
Part I; DNA and Higher Order Cell Systems The effects of a range of nitroxides on the radiation dama...
The histone proteins in nucleosome core particles are known to catalyze DNA cleavage at abasic and o...
AbstractEukaryotic DNA is packaged into nucleosomes, made up of 146 bp of DNA wrapped around a core ...
We developed a method to map oxidative-induced DNA damage at the nucleotide level using ligation-med...
DNA stores and passes the genetic information of almost all living organisms. Its molecular structur...