X-ray and UV Radiation Damage of dsDNA/Protein Complexes.
Paweł WitykDorota Kostrzewa-NowakBeata KrawczykMichał MichalikRobert NowakPublished in: Molecules (Basel, Switzerland) (2021)
Radiation and photodynamic therapies are used for cancer treatment by targeting DNA. However, efficiency is limited due to physico-chemical processes and the insensitivity of native nucleobases to damage. Thus, incorporation of radio- and photosensitizers into these therapies should increase both efficacy and the yield of DNA damage. To date, studies of sensitization processes have been performed on simple model systems, e.g., buffered solutions of dsDNA or sensitizers alone. To fully understand the sensitization processes and to be able to develop new efficient sensitizers in the future, well established model systems are necessary. In the cell environment, DNA tightly interacts with proteins and incorporating this interaction is necessary to fully understand the DNA sensitization process. In this work, we used dsDNA/protein complexes labeled with photo- and radiosensitizers and investigated degradation pathways using LC-MS and HPLC after X-ray or UV radiation.
Keyphrases
- circulating tumor
- dna damage
- cell free
- single molecule
- oxidative stress
- high resolution
- binding protein
- protein protein
- dual energy
- photodynamic therapy
- amino acid
- single cell
- nucleic acid
- cell therapy
- atomic force microscopy
- dna repair
- simultaneous determination
- computed tomography
- cancer therapy
- magnetic resonance
- high performance liquid chromatography
- current status
- mesenchymal stem cells
- high speed